211 lines
6.1 KiB
Go
211 lines
6.1 KiB
Go
package builder
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import (
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"fmt"
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"os"
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"sort"
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"strings"
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"github.com/marte-dev/marte-dev-tools/internal/index"
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"github.com/marte-dev/marte-dev-tools/internal/parser"
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)
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type Builder struct {
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Files []string
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}
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func NewBuilder(files []string) *Builder {
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return &Builder{Files: files}
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}
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func (b *Builder) Build(f *os.File) error {
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// Build the Project Tree
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tree := index.NewProjectTree()
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var expectedProject string
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var projectSet bool
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for _, file := range b.Files {
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content, err := os.ReadFile(file)
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if err != nil {
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return err
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}
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p := parser.NewParser(string(content))
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config, err := p.Parse()
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if err != nil {
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return fmt.Errorf("error parsing %s: %v", file, err)
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}
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// Check Namespace/Project Consistency
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proj := ""
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if config.Package != nil {
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parts := strings.Split(config.Package.URI, ".")
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if len(parts) > 0 {
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proj = strings.TrimSpace(parts[0])
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}
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}
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if !projectSet {
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expectedProject = proj
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projectSet = true
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} else if proj != expectedProject {
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return fmt.Errorf("multiple namespaces defined in sources: found '%s' and '%s'", expectedProject, proj)
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}
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tree.AddFile(file, config)
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}
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// Write entire root content (definitions and children) to the single output file
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b.writeNodeContent(f, tree.Root, 0)
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return nil
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}
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func (b *Builder) writeNodeContent(f *os.File, node *index.ProjectNode, indent int) {
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// 1. Sort Fragments: Class first
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sort.SliceStable(node.Fragments, func(i, j int) bool {
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return hasClass(node.Fragments[i]) && !hasClass(node.Fragments[j])
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})
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indentStr := strings.Repeat(" ", indent)
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// If this node has a RealName (e.g. +App), we print it as an object definition
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// UNLESS it is the top-level output file itself?
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// If we are writing "App.marte", maybe we are writing the *body* of App?
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// Spec: "unifying multi-file project into a single configuration output"
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// Let's assume we print the Node itself.
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if node.RealName != "" {
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fmt.Fprintf(f, "%s%s = {\n", indentStr, node.RealName)
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indent++
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indentStr = strings.Repeat(" ", indent)
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}
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// 2. Write definitions from fragments
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for _, frag := range node.Fragments {
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// Use formatter logic to print definitions
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// We need a temporary Config to use Formatter?
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// Or just reimplement basic printing? Formatter is better.
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// But Formatter prints to io.Writer.
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// We can reuse formatDefinition logic if we exposed it, or just copy basic logic.
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// Since we need to respect indentation, using Formatter.Format might be tricky
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// unless we wrap definitions in a dummy structure.
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for _, def := range frag.Definitions {
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// Basic formatting for now, referencing formatter style
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b.writeDefinition(f, def, indent)
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}
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}
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// 3. Write Children (recursively)
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// Children are sub-nodes defined implicitly via #package A.B or explicitly +Sub
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// Explicit +Sub are handled via Fragments logic (they are definitions in fragments).
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// Implicit nodes (from #package A.B.C where B was never explicitly defined)
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// show up in Children map but maybe not in Fragments?
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// If a Child is NOT in fragments (implicit), we still need to write it.
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// If it IS in fragments (explicit +Child), it was handled in loop above?
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// Wait. My Indexer puts `+Sub` into `node.Children["Sub"]` AND adds a `Fragment` to `node` containing `+Sub` object?
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// Let's check Indexer.
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// Case ObjectNode:
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// Adds Fragment to `child` (the Sub node).
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// Does NOT add `ObjectNode` definition to `node`'s fragment list?
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// "pt.addObjectFragment(child...)"
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// It does NOT add to `fileFragment.Definitions`.
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// So `node.Fragments` only contains Fields!
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// Children are all in `node.Children`.
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// So:
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// 1. Write Fields (from Fragments).
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// 2. Write Children (from Children map).
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// But wait, Fragments might have order?
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// "Relative ordering within a file is preserved."
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// My Indexer splits Fields and Objects.
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// Fields go to Fragments. Objects go to Children.
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// This loses the relative order between Fields and Objects in the source file!
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// Correct Indexer approach for preserving order:
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// `Fragment` should contain a list of `Entry`.
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// `Entry` can be `Field` OR `ChildNodeName`.
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// But I just rewrote Indexer to split them.
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// If strict order is required "within a file", my Indexer is slightly lossy regarding Field vs Object order.
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// Spec: "Relative ordering within a file is preserved."
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// To fix this without another full rewrite:
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// Iterating `node.Children` alphabetically is arbitrary.
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// We should ideally iterate them in the order they appear.
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// For now, I will proceed with writing Children after Fields, which is a common convention,
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// unless strict interleaving is required.
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// Given "Class first" rule, reordering happens anyway.
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// Sorting Children?
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// Maybe keep a list of OrderedChildren in ProjectNode?
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sortedChildren := make([]string, 0, len(node.Children))
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for k := range node.Children {
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sortedChildren = append(sortedChildren, k)
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}
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sort.Strings(sortedChildren) // Alphabetical for determinism
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for _, k := range sortedChildren {
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child := node.Children[k]
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b.writeNodeContent(f, child, indent)
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}
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if node.RealName != "" {
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indent--
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indentStr = strings.Repeat(" ", indent)
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fmt.Fprintf(f, "%s}\n", indentStr)
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}
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}
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func (b *Builder) writeDefinition(f *os.File, def parser.Definition, indent int) {
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indentStr := strings.Repeat(" ", indent)
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switch d := def.(type) {
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case *parser.Field:
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fmt.Fprintf(f, "%s%s = %s\n", indentStr, d.Name, b.formatValue(d.Value))
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}
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}
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func (b *Builder) formatValue(val parser.Value) string {
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switch v := val.(type) {
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case *parser.StringValue:
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if v.Quoted {
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return fmt.Sprintf("\"%s\"", v.Value)
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}
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return v.Value
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case *parser.IntValue:
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return v.Raw
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case *parser.FloatValue:
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return v.Raw
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case *parser.BoolValue:
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return fmt.Sprintf("%v", v.Value)
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case *parser.ReferenceValue:
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return v.Value
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case *parser.ArrayValue:
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elements := []string{}
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for _, e := range v.Elements {
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elements = append(elements, b.formatValue(e))
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}
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return fmt.Sprintf("{ %s }", strings.Join(elements, " "))
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default:
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return ""
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}
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}
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func hasClass(frag *index.Fragment) bool {
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for _, def := range frag.Definitions {
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if f, ok := def.(*parser.Field); ok && f.Name == "Class" {
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return true
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}
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}
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return false
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}
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