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arf/analyzer/analyzer.go

121 lines
3.1 KiB
Go

package analyzer
import "os"
import "fmt"
import "path/filepath"
// import "git.tebibyte.media/arf/arf/types"
import "git.tebibyte.media/arf/arf/parser"
// import "git.tebibyte.media/arf/arf/infoerr"
// AnalysisOperation holds information about an ongoing analysis operation.
type AnalysisOperation struct {
sectionTable SectionTable
modulePath string
currentPosition locator
currentSection parser.Section
}
// Analyze performs a semantic analyisys on the module specified by path, and
// returns a SectionTable that can be translated into C.
func Analyze (modulePath string, skim bool) (table SectionTable, err error) {
if modulePath[0] != '/' {
cwd, _ := os.Getwd()
modulePath = filepath.Join(cwd, modulePath)
}
analyzer := AnalysisOperation {
sectionTable: make(SectionTable),
modulePath: modulePath,
}
err = analyzer.analyze()
table = analyzer.sectionTable
return
}
// analyze performs an analysis operation given the state of the operation
// struct.
func (analyzer *AnalysisOperation) analyze () (err error) {
tree, err := parser.Fetch(analyzer.modulePath, false)
sections := tree.Sections()
for !sections.End() {
_, err = analyzer.fetchSection(locator {
modulePath: analyzer.modulePath,
name: sections.Value().Name(),
})
sections.Next()
}
return
}
// fetchSection returns a section from the section table. If it has not already
// been analyzed, it analyzes it first. If the section does not actually exist,
// a nil section is returned. When this happens, an error should be created on
// whatever syntax tree node "requested" the section be analyzed.
func (analyzer *AnalysisOperation) fetchSection (
where locator,
) (
section Section,
err error,
) {
var exists bool
section, exists = analyzer.sectionTable[where]
if exists { return }
// fetch the module. since we already have our main module parsed fully
// and not skimmed, we can just say "yeah lets skim stuff here".
var tree parser.SyntaxTree
tree, err = parser.Fetch(where.modulePath, true)
if err != nil {
section = nil
return
}
var parsedSection = tree.LookupSection(where.name)
if parsedSection == nil {
section = nil
return
}
previousPosition := analyzer.currentPosition
previousSection := analyzer.currentSection
analyzer.currentPosition = where
analyzer.currentSection = parsedSection
defer func () {
analyzer.currentPosition = previousPosition
analyzer.currentSection = previousSection
} ()
// TODO: analyze section. have analysis methods work on currentPosition
// and currentSection.
//
// while building an analyzed section, add it to the section
// table as soon as the vital details are acquired, and mark it as
// incomplete. that way, it can still be referenced by itself in certain
// scenarios.
switch parsedSection.Kind() {
case parser.SectionKindType:
section, err = analyzer.analyzeTypeSection()
if err != nil { return}
case parser.SectionKindEnum:
case parser.SectionKindFace:
case parser.SectionKindData:
case parser.SectionKindFunc:
}
return
}
func doIndent (indent int, input ...any) (output string) {
for index := 0; index < indent; index ++ {
output += "\t"
}
output += fmt.Sprint(input...)
return
}