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diagram.go
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diagram.go
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// diagram-creation.go: all the methods attached to the generator object to be used in templating
package catalog
import (
"bytes"
"fmt"
"os"
"path"
"regexp"
"strconv"
"strings"
"sync"
"text/template"
"github.com/pkg/errors"
"github.com/yuin/goldmark"
"github.com/yuin/goldmark/extension"
"github.com/yuin/goldmark/renderer/html"
"github.com/anz-bank/protoc-gen-sysl/newsysl"
"github.com/anz-bank/sysl-catalog/pkg/catalogdiagrams"
"github.com/anz-bank/sysl/pkg/cmdutils"
"github.com/anz-bank/sysl/pkg/diagrams"
"github.com/anz-bank/sysl/pkg/integrationdiagram"
"github.com/anz-bank/sysl/pkg/mermaid/datamodeldiagram"
"github.com/anz-bank/sysl/pkg/mermaid/endpointanalysisdiagram"
integration "github.com/anz-bank/sysl/pkg/mermaid/integrationdiagram"
"github.com/anz-bank/sysl/pkg/mermaid/sequencediagram"
"github.com/anz-bank/sysl/pkg/sysl"
"github.com/anz-bank/sysl/pkg/syslutil"
"github.com/anz-bank/sysl/pkg/syslwrapper"
)
var (
ofTypeSymbol = regexp.MustCompile(`(?m)(?:<:)(?:.*)`)
)
const (
plantuml = iota
mermaidjs
)
// All the Create* functions not really create a file other than registering a filepath into "to be created" map list.
// CreateMarkdown is a wrapper function that also converts output markdown to html if in server mode
func (p *Generator) CreateMarkdown(t *template.Template, outputFileName string, i interface{}) error {
var buf bytes.Buffer
if err := t.Execute(&buf, i); err != nil {
return err
}
if err := p.Fs.MkdirAll(path.Dir(outputFileName), os.ModePerm); err != nil {
return err
}
f2, err := p.Fs.Create(outputFileName)
if err != nil {
return err
}
out := buf.Bytes()
var converted bytes.Buffer
if p.Format == "html" && !p.DisableCss {
md := goldmark.New(
goldmark.WithExtensions(extension.GFM),
goldmark.WithRendererOptions(
html.WithUnsafe(),
),
)
if err := md.Convert(out, &converted); err != nil {
return errors.Wrap(err, "Error converting markdown to html:")
}
raw := converted.String()
raw = strings.ReplaceAll(raw, "README.md", p.OutputFileName)
out = []byte(header + raw + style + endTags)
}
if _, err = f2.Write(out); err != nil {
return err
}
return nil
}
func (p *Generator) CreateIntegrationDiagram(m *sysl.Module, title string, EPA bool) string {
if p.Mermaid {
return p.CreateIntegrationDiagramMermaid(m, title, EPA)
}
return p.CreateIntegrationDiagramPlantuml(m, title, EPA)
}
func (p *Generator) CreateIntegrationDiagramMermaid(m *sysl.Module, title string, EPA bool) string {
var result string
var err error
var apps []string
for app := range m.Apps {
apps = append(apps, app)
}
if len(apps) == 0 {
p.Log.Error("Empty Apps")
return ""
}
mod := p.RootModule
if EPA {
result, err = endpointanalysisdiagram.GenerateMultipleAppEndpointAnalysisDiagram(mod, apps)
} else {
result, err = integration.GenerateMultipleAppIntegrationDiagram(mod, apps)
}
if err != nil {
p.Log.Error(err)
return ""
}
output := "integration" + TernaryOperator(EPA, "EPA", "").(string)
return p.CreateFile(result, mermaidjs, output+p.Ext)
}
// CreateIntegrationDiagram creates an integration diagram and returns the filename
func (p *Generator) CreateIntegrationDiagramPlantuml(m *sysl.Module, title string, EPA bool) string {
type intsCmd struct {
diagrams.Plantumlmixin
cmdutils.CmdContextParamIntgen
}
integration := intsCmd{}
projectApp := createProjectApp(m.Apps)
project := "__TEMP__"
defer delete(p.RootModule.GetApps(), project)
p.RootModule.GetApps()[project] = projectApp
integration.Project = project
integration.Output = "integration" + TernaryOperator(EPA, "EPA", "").(string)
integration.Title = title
integration.EPA = EPA
integration.Clustered = true
result, err := integrationdiagram.GenerateIntegrations(&integration.CmdContextParamIntgen, p.RootModule, p.Log)
if err != nil {
p.Log.Error("Error creating integration diagram:", err)
os.Exit(1)
}
plantumlString := result[integration.Output]
return p.CreateFile(plantumlString, plantuml, integration.Output+p.Ext)
}
func (p *Generator) CreateSequenceDiagram(appName string, endpoint *sysl.Endpoint) string {
if p.Mermaid {
return p.CreateSequenceDiagramMermaid(appName, endpoint)
}
return p.CreateSequenceDiagramPlantuml(appName, endpoint)
}
func (p *Generator) CreateSequenceDiagramMermaid(appName string, endpoint *sysl.Endpoint) string {
m := p.RootModule
result, error := sequencediagram.GenerateSequenceDiagram(m, appName, endpoint.GetName())
if error != nil {
p.Log.Error(error)
return ""
}
return p.CreateFile(result, mermaidjs, appName, endpoint.GetName()+"_seq_"+p.Ext)
}
// CreateSequenceDiagram creates an sequence diagram and returns the filename
func (p *Generator) CreateSequenceDiagramPlantuml(appName string, endpoint *sysl.Endpoint) string {
m := p.RootModule
call := fmt.Sprintf("%s <- %s", appName, endpoint.GetName())
plantumlString, err := CreateSequenceDiagram(m, call)
if err != nil {
p.Log.Error("Error creating sequence diagram:", err)
os.Exit(1)
return ""
}
return p.CreateFile(plantumlString, plantuml, appName, endpoint.GetName()+"_seq_"+p.Ext)
}
type Param interface {
Typer
GetName() string
}
// CreateParamDataModel creates a parameter data model and returns a filename
func (p *Generator) CreateParamDataModel(app *sysl.Application, param Param) string {
var appName, typeName, aliasTypeName string
var getRecursive bool
aliasTypeName = param.GetName()
appName, typeName = GetAppTypeName(param)
if aliasTypeName == "" {
aliasTypeName = typeName
}
if appName == "" {
appName = path.Join(app.GetName().GetPart()...)
}
if appName == "primitive" {
getRecursive = false
} else {
getRecursive = true
}
if p.Mermaid {
return p.CreateAliasedTypeDiagramMermaid(appName, typeName, aliasTypeName, getRecursive)
} else {
return p.CreateAliasedTypeDiagram(appName, typeName, aliasTypeName, param.GetType(), getRecursive)
}
}
// GetReturnType converts an application and a param into a type, useful for getting attributes.
func (p *Generator) GetParamType(app *sysl.Application, param *sysl.Param) *sysl.Type {
var appName, typeName string
appName, typeName = GetAppTypeName(param)
if appName == "" {
appName = path.Join(app.GetName().GetPart()...)
}
return p.RootModule.Apps[appName].GetTypes()[typeName]
}
// GetReturnType converts an endpoint and a statement into a type, useful for getting attributes.
func (p *Generator) GetReturnType(endpoint *sysl.Endpoint, stmnt *sysl.Statement) *sysl.Type {
var appName, typeName string
ret := stmnt.GetRet()
if ret == nil {
return nil
}
t := strings.ReplaceAll(ofTypeSymbol.FindString(ret.GetPayload()), "<: ", "")
if strings.Contains(t, "sequence of") {
t = strings.ReplaceAll(t, "sequence of ", "")
}
if split := strings.Split(t, "."); len(split) > 1 {
appName = split[0]
typeName = split[1]
} else {
typeName = split[0]
}
if appName == "" {
appName = strings.Join(endpoint.GetSource().GetPart(), "")
}
return p.RootModule.GetApps()[appName].GetTypes()[typeName]
}
// CreateReturnDataModel creates a return data model and returns a filename, or empty string if it wasn't a return statement.
func (p *Generator) CreateReturnDataModel(appname string, stmnt *sysl.Statement, endpoint *sysl.Endpoint) string {
var sequence, getRecursive bool
var typeref *sysl.Type
var appName, typeName string
ret := stmnt.GetRet()
if ret == nil {
return ""
}
t := strings.ReplaceAll(ofTypeSymbol.FindString(ret.Payload), "<: ", "")
if strings.Contains(t, "sequence of") {
t = strings.ReplaceAll(t, "sequence of ", "")
sequence = true
}
if split := strings.Split(t, "."); len(split) > 1 {
appName = split[0]
typeName = split[1]
} else {
appName = appname
typeName = split[0]
}
if sequence {
newSequenceName := endpoint.GetName() + "ReturnVal"
newAppName := appname
defer delete(p.RootModule.GetApps()[newAppName].GetTypes(), newSequenceName)
p.RootModule.GetApps()[newAppName].GetTypes()[newSequenceName] = &sysl.Type{
Type: &sysl.Type_Tuple_{
Tuple: &sysl.Type_Tuple{
AttrDefs: map[string]*sysl.Type{"sequence": {Type: &sysl.Type_Sequence{
Sequence: newsysl.Type(typeName, appName)},
},
},
},
},
}
typeref = NewTypeRef(newAppName, newSequenceName)
} else {
typeref = NewTypeRef(appName, typeName)
}
if _, ok := p.RootModule.Apps[appName]; !ok {
return ""
}
if syslwrapper.IsPrimitive(typeName) {
getRecursive = false
typeref = syslwrapper.MakePrimitive(typeName)
} else {
getRecursive = true
}
return p.CreateTypeDiagram(appName, typeName, typeref, getRecursive)
}
// CreateTypeDiagram creates a data model diagram and returns the filename
// It handles recursively getting the related types, or for primitives, just returns the
func (p *Generator) CreateTypeDiagram(appName string, typeName string, t *sysl.Type, recursive bool) string {
if p.Mermaid {
return p.CreateAliasedTypeDiagramMermaid(appName, typeName, typeName, recursive)
}
return p.CreateAliasedTypeDiagram(appName, typeName, typeName, t, recursive)
}
func (p *Generator) CreateAliasedTypeDiagramMermaid(appName string, typeName string, typeAlias string, recursive bool) string {
if appName == "" || typeName == "" {
return ""
}
m := p.RootModule
var mermaidString string
var err error
if appName == "primitive" {
mermaidString += datamodeldiagram.GeneratePrimitive(typeName)
} else {
mermaidString, err = datamodeldiagram.GenerateDataDiagramWithAppAndType(m, appName, typeName)
if err != nil {
return ""
}
}
return p.CreateFile(mermaidString, mermaidjs, appName, typeName+TernaryOperator(recursive, "", "simple").(string)+p.Ext)
}
func (p *Generator) CreateAliasedTypeDiagram(appName, typeName, typeAlias string, t *sysl.Type, recursive bool) string {
m := p.RootModule
var plantumlString string
if recursive {
relatedTypes := catalogdiagrams.RecursivelyGetTypes(
appName,
map[string]*catalogdiagrams.TypeData{
typeAlias: catalogdiagrams.NewTypeData(typeAlias, NewTypeRef(appName, typeName)),
}, m,
)
plantumlString = catalogdiagrams.GenerateDataModel(appName, relatedTypes)
if _, ok := p.RootModule.GetApps()[appName]; !ok {
return ""
}
// Handle Empty
if len(relatedTypes) == 0 {
return ""
}
} else {
plantumlString = catalogdiagrams.GenerateDataModel(
appName,
map[string]*catalogdiagrams.TypeData{typeAlias: catalogdiagrams.NewTypeData(typeAlias, t)},
)
}
return p.CreateFile(
plantumlString, plantuml, appName,
typeName+TernaryOperator(
recursive,
TernaryOperator(typeAlias == typeName, "", typeAlias),
TernaryOperator(typeAlias == typeName, "simple", typeAlias)).(string)+p.Ext)
}
// CreateFileName returns the absolute and relative filepaths
func CreateFileName(dir string, elems ...string) (string, string) {
var absolutefilePath, filename string
for i, e := range elems {
if i == len(elems)-1 {
filename = strings.ToLower(SanitiseOutputName(e))
absolutefilePath = path.Join(absolutefilePath, filename)
break
}
absolutefilePath = path.Join(absolutefilePath, SanitiseOutputName(e))
}
if dir != "" {
dir += "/"
}
return path.Join(dir, absolutefilePath), dir
}
// CreateRedoc registers a file that needs to be created when the input source context has extension .json or .yaml
func (p *Generator) CreateRedoc(sourceContext *sysl.SourceContext, appName string) string {
if !IsOpenAPIFile(sourceContext) || !p.Redoc {
return ""
}
absPath, _ := CreateFileName(p.CurrentDir, appName+".redoc.html")
absPath = path.Join(p.OutputDir, absPath)
var err error
p.RedocFilesToCreate[absPath], err = BuildSpecURL(sourceContext)
if err != nil {
p.Log.Error(err)
}
link, _ := CreateFileName("", appName+".redoc.html")
return link
}
func root(p string) string {
this := strings.Split(p, "/")
ret := ""
for range this {
ret += "../"
}
return ret
}
// CreateFile registers a file that needs to be created in p, or returns the embedded img tag if in server mode
func (p *Generator) CreateFile(contents string, diagramType int, elems ...string) string {
var absFilePath, currentDir string
absFilePath, currentDir = CreateFileName(p.CurrentDir, elems...)
var targetMap map[string]string
mutex := &sync.RWMutex{}
var err error
switch diagramType {
case plantuml:
if !strings.Contains(p.PlantumlService, ".jar") {
contents, err = PlantUMLURL(p.PlantumlService, contents)
}
mutex.Lock()
targetMap = p.FilesToCreate
mutex.Unlock()
case mermaidjs:
mutex.Lock()
targetMap = p.MermaidFilesToCreate
mutex.Unlock()
default:
panic("Wrong diagram type specified")
}
if err != nil {
p.Log.Error("Error creating file:", err)
os.Exit(1)
return ""
}
newFileName := absFilePath
for i := 0; ; i++ {
mutex.RLock()
diagram, ok := targetMap[newFileName]
mutex.RUnlock()
if !ok || diagram == contents {
break
}
newFileName = strings.ReplaceAll(absFilePath, p.Ext, strconv.Itoa(i)+p.Ext)
}
absFilePath = newFileName
// if p.ImageTags: return image tag from plantUML service
if p.ImageTags && diagramType == plantuml && !strings.Contains(p.PlantumlService, ".jar") {
return contents
}
if p.ImageDest != "" {
absFilePath = path.Join(p.ImageDest, strings.ReplaceAll(absFilePath, "/", "-"))
mutex.Lock()
targetMap[absFilePath] = contents
mutex.Unlock()
return path.Join(root(currentDir), absFilePath)
}
mutex.Lock()
targetMap[path.Join(p.OutputDir, absFilePath)] = contents
mutex.Unlock()
return strings.Replace(absFilePath, currentDir, "", 1)
}
// GenerateDataModel generates a data model for all of the types in app
func (p *Generator) GenerateDataModel(app *sysl.Application) string {
appName := strings.Join(app.GetName().GetPart(), "")
plantumlString := catalogdiagrams.GenerateDataModel(appName, catalogdiagrams.FromSyslTypeMap(appName, app.GetTypes()))
if _, ok := p.RootModule.GetApps()[appName]; !ok {
return ""
}
return p.CreateFile(plantumlString, plantuml, appName, "types"+p.Ext)
}
func (p *Generator) getProjectApp(m *sysl.Module) (*sysl.Application, map[string]string) {
includedProjects := Filter(
SortedKeys(m.Apps),
func(i string) bool {
return syslutil.HasPattern(m.GetApps()[i].GetAttrs(), "project") &&
path.Base(m.GetApps()[i].SourceContext.File) == path.Base(p.SourceFileName)
},
)
if len(includedProjects) > 0 {
set := make(map[string]string)
app := m.GetApps()[includedProjects[0]]
for _, e := range app.GetEndpoints() {
if syslutil.HasPattern(e.GetAttrs(), "ignore") {
continue
}
for _, e2 := range e.GetStmt() {
set[e2.GetAction().GetAction()] = e.Name
}
}
return m.GetApps()[includedProjects[0]], set
}
return nil, nil
}
// ModuleAsMacroPackage returns "macro packages" that map to the endpoints on the "project" application
/*
project[~project]: <-- first map
FirstDivision: <-- ["FirstDivision"]:
package1 <-- all apps in this package will be contained in this module
package2 <-- same with this one
SecondDivision: <-- ["SecondDivision"]:
package3 <-- You get the point
*/
func (p *Generator) ModuleAsMacroPackage(m *sysl.Module) map[string]*sysl.Module {
packages := make(map[string]*sysl.Module)
_, includedProjects := p.getProjectApp(m)
for _, key := range SortedKeys(m.GetApps()) {
app := m.GetApps()[key]
packageName := GetPackageName(p.RootModule, app)
if packageName == "" {
packageName = key
}
// what endpoint on the "project app" are we on?
projectEndpoint, ok := includedProjects[packageName]
if len(includedProjects) > 0 && !ok || (projectEndpoint == "") {
continue
}
if syslutil.HasPattern(app.GetAttrs(), "ignore") || syslutil.HasPattern(app.GetAttrs(), "project") {
continue
}
if _, ok := packages[projectEndpoint]; !ok {
packages[projectEndpoint] = newsysl.Module()
}
if _, ok := packages[projectEndpoint]; !ok {
packages[projectEndpoint] = &sysl.Module{Apps: map[string]*sysl.Application{}}
}
packages[projectEndpoint].GetApps()[strings.Join(app.GetName().GetPart(), "")] = app
}
return packages
}
// MacroPackages executes the markdown for a MacroPackage and returns a slice of the rows
func (p *Generator) MacroPackages(module *sysl.Module) []string {
defer p.resetTempVars()
MacroPackages := p.ModuleAsMacroPackage(module)
for macroPackageName, macroPackage := range MacroPackages {
fileName := markdownName(p.OutputFileName, macroPackageName)
macroPackageFileName := path.Join(p.OutputDir, macroPackageName, fileName)
p.CurrentDir = macroPackageName
p.TempDir = macroPackageName // this is for p.Packages()
p.Title = macroPackageName
p.Links = map[string]string{
"Back": "../" + p.OutputFileName,
}
newGenerator := *p
newGenerator.Module = macroPackage
err := newGenerator.CreateMarkdown(newGenerator.Templates[1], macroPackageFileName, newGenerator)
if err != nil {
p.Log.Error("Error generating project table:", err)
os.Exit(1)
}
}
return SortedKeys(MacroPackages)
}
func (p *Generator) resetTempVars() {
p.CurrentDir = p.TempDir
p.TempDir = ""
}
// Packages executes the markdown for a package and returns a slice of the rows
func (p *Generator) Packages(m *sysl.Module) []string {
defer p.resetTempVars()
MacroPackages := p.ModuleAsPackages(m)
for packageName, pkg := range MacroPackages {
p.CurrentDir = path.Join(p.TempDir, packageName)
fileName := markdownName(p.OutputFileName, packageName)
fullOutputName := path.Join(p.OutputDir, p.CurrentDir, fileName)
if err := p.CreateMarkdown(p.Templates[len(p.Templates)-1], fullOutputName, pkg); err != nil {
p.Log.Error("error in generating "+fullOutputName, err)
}
}
return SortedKeys(MacroPackages)
}
// ModuleAsPackages returns a map of [packagename]*sysl.Module
func (p *Generator) ModuleAsPackages(m *sysl.Module) map[string]*sysl.Module {
packages := make(map[string]*sysl.Module)
_, includedProjects := p.getProjectApp(m)
for _, key := range SortedKeys(m.GetApps()) {
app := m.GetApps()[key]
packageName, _ := GetAppPackageName(app)
if packageName == "" {
packageName = key
}
if _, ok := includedProjects[packageName]; len(includedProjects) > 0 && !ok {
continue
}
packageName = GetPackageName(p.RootModule, app)
if syslutil.HasPattern(app.GetAttrs(), "ignore") || syslutil.HasPattern(app.GetAttrs(), "project") {
continue
}
if _, ok := packages[packageName]; !ok {
packages[packageName] = &sysl.Module{Apps: map[string]*sysl.Application{}}
}
packages[packageName].GetApps()[strings.Join(app.GetName().GetPart(), "")] = app
}
return packages
}