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gosora/templates.go
Azareal 5a43432b80 Replaced most of the uses of fmt with log. 
Replaced the io.Writers with http.ResponseWriters.
Refactored the compiled template calls.
Redirect port 443 to port 80.
Catch more errors from templates.
Fixed a few mutexes which are never unlocked.
Eliminated an unnecessary parameter in InternalError()
Temporarily commented out users_penalties so that the installer will succeed.
A couple more template types can be remapped now.
Tweaked the theme.
2017-08-13 12:22:34 +01:00

1059 lines
31 KiB
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package main
import (
"log"
"fmt"
"bytes"
"strings"
"strconv"
//"regexp"
"reflect"
"path/filepath"
"io/ioutil"
"text/template/parse"
)
// TO-DO: Turn this file into a library
var ctemplates []string
var tmpl_ptr_map map[string]interface{} = make(map[string]interface{})
var text_overlap_list map[string]int
func init() {
text_overlap_list = make(map[string]int)
}
type VarItem struct
{
Name string
Destination string
Type string
}
type VarItemReflect struct
{
Name string
Destination string
Value reflect.Value
}
type CTemplateSet struct
{
tlist map[string]*parse.Tree
dir string
funcMap map[string]interface{}
importMap map[string]string
Fragments map[string]int
FragmentCursor map[string]int
FragOut string
varList map[string]VarItem
localVars map[string]map[string]VarItemReflect
stats map[string]int
pVarList string
pVarPosition int
previousNode parse.NodeType
currentNode parse.NodeType
nextNode parse.NodeType
//tempVars map[string]string
doImports bool
expectsInt interface{}
}
func (c *CTemplateSet) compile_template(name string, dir string, expects string, expectsInt interface{}, varList map[string]VarItem) (out string, err error) {
if dev.DebugMode {
fmt.Println("Compiling template '" + name + "'")
}
c.dir = dir
c.doImports = true
c.funcMap = map[string]interface{}{
"and": "&&",
"not": "!",
"or": "||",
"eq": true,
"ge": true,
"gt": true,
"le": true,
"lt": true,
"ne": true,
"add": true,
"subtract": true,
"multiply": true,
"divide": true,
}
c.importMap = map[string]string{
"net/http":"net/http",
}
c.varList = varList
//c.pVarList = ""
//c.pVarPosition = 0
c.stats = make(map[string]int)
c.expectsInt = expectsInt
holdreflect := reflect.ValueOf(expectsInt)
res, err := ioutil.ReadFile(dir + name)
if err != nil {
return "", err
}
content := string(res)
if config.MinifyTemplates {
content = minify(content)
}
tree := parse.New(name, c.funcMap)
var treeSet map[string]*parse.Tree = make(map[string]*parse.Tree)
tree, err = tree.Parse(content,"{{","}}", treeSet, c.funcMap)
if err != nil {
return "", err
}
if dev.SuperDebug {
fmt.Println(name)
}
out = ""
fname := strings.TrimSuffix(name, filepath.Ext(name))
c.tlist = make(map[string]*parse.Tree)
c.tlist[fname] = tree
varholder := "tmpl_" + fname + "_vars"
if dev.SuperDebug {
fmt.Println(c.tlist)
}
c.localVars = make(map[string]map[string]VarItemReflect)
c.localVars[fname] = make(map[string]VarItemReflect)
c.localVars[fname]["."] = VarItemReflect{".",varholder,holdreflect}
if c.Fragments == nil {
c.Fragments = make(map[string]int)
}
c.FragmentCursor = make(map[string]int)
c.FragmentCursor[fname] = 0
subtree := c.tlist[fname]
if dev.SuperDebug {
fmt.Println(subtree.Root)
}
treeLength := len(subtree.Root.Nodes)
for index, node := range subtree.Root.Nodes {
if dev.SuperDebug {
fmt.Println("Node: " + node.String())
}
c.previousNode = c.currentNode
c.currentNode = node.Type()
if treeLength != (index + 1) {
c.nextNode = subtree.Root.Nodes[index + 1].Type()
}
out += c.compile_switch(varholder, holdreflect, fname, node)
}
var importList string
if c.doImports {
for _, item := range c.importMap {
importList += "import \"" + item + "\"\n"
}
}
var varString string
for _, varItem := range c.varList {
varString += "var " + varItem.Name + " " + varItem.Type + " = " + varItem.Destination + "\n"
}
fout := "// +build !no_templategen\n\n// Code generated by Gosora. More below:\n/* This file was automatically generated by the software. Please don't edit it as your changes may be overwritten at any moment. */\n"
fout += "package main\n" + importList + c.pVarList + "\n"
fout += "func init() {\n\ttemplate_" + fname +"_handle = template_" + fname + "\n\t//o_template_" + fname +"_handle = template_" + fname + "\n\tctemplates = append(ctemplates,\"" + fname + "\")\n\ttmpl_ptr_map[\"" + fname + "\"] = &template_" + fname + "_handle\n\ttmpl_ptr_map[\"o_" + fname + "\"] = template_" + fname + "\n}\n\n"
fout += "func template_" + fname + "(tmpl_" + fname + "_vars " + expects + ", w http.ResponseWriter) {\n" + varString + out + "}\n"
fout = strings.Replace(fout,`))
w.Write([]byte(`," + ",-1)
fout = strings.Replace(fout,"` + `","",-1)
//spstr := "`([:space:]*)`"
//whitespace_writes := regexp.MustCompile(`(?s)w.Write\(\[\]byte\(`+spstr+`\)\)`)
//fout = whitespace_writes.ReplaceAllString(fout,"")
if dev.DebugMode {
for index, count := range c.stats {
fmt.Println(index + ": " + strconv.Itoa(count))
}
fmt.Println(" ")
}
if dev.SuperDebug {
fmt.Println("Output!")
fmt.Println(fout)
}
return fout, nil
}
func (c *CTemplateSet) compile_switch(varholder string, holdreflect reflect.Value, template_name string, node interface{}) (out string) {
if dev.SuperDebug {
fmt.Println("in compile_switch")
}
switch node := node.(type) {
case *parse.ActionNode:
if dev.SuperDebug {
fmt.Println("Action Node")
}
if node.Pipe == nil {
break
}
for _, cmd := range node.Pipe.Cmds {
out += c.compile_subswitch(varholder, holdreflect, template_name, cmd)
}
return out
case *parse.IfNode:
if dev.SuperDebug {
fmt.Println("If Node:")
fmt.Println("node.Pipe",node.Pipe)
}
var expr string
for _, cmd := range node.Pipe.Cmds {
if dev.SuperDebug {
fmt.Println("If Node Bit:",cmd)
fmt.Println("If Node Bit Type:",reflect.ValueOf(cmd).Type().Name())
}
expr += c.compile_varswitch(varholder, holdreflect, template_name, cmd)
if dev.SuperDebug {
fmt.Println("If Node Expression Step:",c.compile_varswitch(varholder, holdreflect, template_name, cmd))
}
}
if dev.SuperDebug {
fmt.Println("If Node Expression:",expr)
}
c.previousNode = c.currentNode
c.currentNode = parse.NodeList
c.nextNode = -1
if node.ElseList == nil {
if dev.SuperDebug {
fmt.Println("Selected Branch 1")
}
return "if " + expr + " {\n" + c.compile_switch(varholder, holdreflect, template_name, node.List) + "}\n"
} else {
if dev.SuperDebug {
fmt.Println("Selected Branch 2")
}
return "if " + expr + " {\n" + c.compile_switch(varholder, holdreflect, template_name, node.List) + "} else {\n" + c.compile_switch(varholder, holdreflect, template_name, node.ElseList) + "}\n"
}
case *parse.ListNode:
if dev.SuperDebug {
fmt.Println("List Node")
}
for _, subnode := range node.Nodes {
out += c.compile_switch(varholder, holdreflect, template_name, subnode)
}
return out
case *parse.RangeNode:
if dev.SuperDebug {
fmt.Println("Range Node!")
fmt.Println(node.Pipe)
}
var outVal reflect.Value
for _, cmd := range node.Pipe.Cmds {
if dev.SuperDebug {
fmt.Println("Range Bit:", cmd)
}
out, outVal = c.compile_reflectswitch(varholder, holdreflect, template_name, cmd)
}
if dev.SuperDebug {
fmt.Println("Returned:", out)
fmt.Println("Range Kind Switch!")
}
switch outVal.Kind() {
case reflect.Map:
var item reflect.Value
for _, key := range outVal.MapKeys() {
item = outVal.MapIndex(key)
}
if node.ElseList != nil {
out = "if len(" + out + ") != 0 {\nfor _, item := range " + out + " {\n" + c.compile_switch("item", item, template_name, node.List) + "}\n} else {\n" + c.compile_switch("item", item, template_name, node.ElseList) + "}\n"
} else {
out = "if len(" + out + ") != 0 {\nfor _, item := range " + out + " {\n" + c.compile_switch("item", item, template_name, node.List) + "}\n}"
}
case reflect.Slice:
if outVal.Len() == 0 {
panic("The sample data needs at-least one or more elements for the slices. We're looking into removing this requirement at some point!")
}
item := outVal.Index(0)
out = "if len(" + out + ") != 0 {\nfor _, item := range " + out + " {\n" + c.compile_switch("item", item, template_name, node.List) + "}\n}"
case reflect.Invalid:
return ""
}
if node.ElseList != nil {
out += " else {\n" + c.compile_switch(varholder, holdreflect, template_name, node.ElseList) + "}\n"
} else {
out += "\n"
}
return out
case *parse.TemplateNode:
return c.compile_subtemplate(varholder, holdreflect, node)
case *parse.TextNode:
c.previousNode = c.currentNode
c.currentNode = node.Type()
c.nextNode = 0
tmpText := bytes.TrimSpace(node.Text)
if len(tmpText) == 0 {
return ""
} else {
//return "w.Write([]byte(`" + string(node.Text) + "`))\n"
fragment_name := template_name + "_" + strconv.Itoa(c.FragmentCursor[template_name])
_, ok := c.Fragments[fragment_name]
if !ok {
c.Fragments[fragment_name] = len(node.Text)
c.FragOut += "var " + fragment_name + " []byte = []byte(`" + string(node.Text) + "`)\n"
}
c.FragmentCursor[template_name] = c.FragmentCursor[template_name] + 1
return "w.Write(" + fragment_name + ")\n"
}
default:
panic("Unknown Node in main switch")
}
return ""
}
func (c *CTemplateSet) compile_subswitch(varholder string, holdreflect reflect.Value, template_name string, node *parse.CommandNode) (out string) {
if dev.SuperDebug {
fmt.Println("in compile_subswitch")
}
firstWord := node.Args[0]
switch n := firstWord.(type) {
case *parse.FieldNode:
if dev.SuperDebug {
fmt.Println("Field Node:",n.Ident)
}
/* Use reflect to determine if the field is for a method, otherwise assume it's a variable. Variable declarations are coming soon! */
cur := holdreflect
var varbit string
if cur.Kind() == reflect.Interface {
cur = cur.Elem()
varbit += ".(" + cur.Type().Name() + ")"
}
for _, id := range n.Ident {
if dev.SuperDebug {
fmt.Println("Data Kind:", cur.Kind().String())
fmt.Println("Field Bit:", id)
}
if cur.Kind() == reflect.Ptr {
if dev.SuperDebug {
fmt.Println("Looping over pointer")
}
for cur.Kind() == reflect.Ptr {
cur = cur.Elem()
}
if dev.SuperDebug {
fmt.Println("Data Kind:", cur.Kind().String())
fmt.Println("Field Bit:", id)
}
}
if !cur.IsValid() {
panic(varholder + varbit + "^\n" + "Invalid value. Maybe, it doesn't exist?")
}
cur = cur.FieldByName(id)
if cur.Kind() == reflect.Interface {
cur = cur.Elem()
// TO-DO: Surely, there's a better way of detecting this?
/*if cur.Kind() == reflect.String && cur.Type().Name() != "string" {
varbit = "string(" + varbit + "." + id + ")"*/
//if cur.Kind() == reflect.String && cur.Type().Name() != "string" {
if cur.Type().PkgPath() != "main" && cur.Type().PkgPath() != "" {
c.importMap["html/template"] = "html/template"
varbit += "." + id + ".(" + strings.TrimPrefix(cur.Type().PkgPath(),"html/") + "." + cur.Type().Name() + ")"
} else {
varbit += "." + id + ".(" + cur.Type().Name() + ")"
}
} else {
varbit += "." + id
}
if dev.SuperDebug {
fmt.Println("End Cycle")
}
}
out = c.compile_varsub(varholder + varbit, cur)
for _, varItem := range c.varList {
if strings.HasPrefix(out, varItem.Destination) {
out = strings.Replace(out, varItem.Destination, varItem.Name, 1)
}
}
return out
case *parse.DotNode:
if dev.SuperDebug {
fmt.Println("Dot Node:",node.String())
}
return c.compile_varsub(varholder, holdreflect)
case *parse.NilNode:
panic("Nil is not a command x.x")
case *parse.VariableNode:
if dev.SuperDebug {
fmt.Println("Variable Node:", n.String())
fmt.Println(n.Ident)
}
varname, reflectVal := c.compile_if_varsub(n.String(), varholder, template_name, holdreflect)
return c.compile_varsub(varname, reflectVal)
case *parse.StringNode:
return n.Quoted
case *parse.IdentifierNode:
if dev.SuperDebug {
fmt.Println("Identifier Node:", node)
fmt.Println("Identifier Node Args:", node.Args)
}
return c.compile_varsub(c.compile_identswitch(varholder, holdreflect, template_name, node))
default:
fmt.Println("Unknown Kind:", reflect.ValueOf(firstWord).Elem().Kind())
fmt.Println("Unknown Type:", reflect.ValueOf(firstWord).Elem().Type().Name())
panic("I don't know what node this is")
}
return ""
}
func (c *CTemplateSet) compile_varswitch(varholder string, holdreflect reflect.Value, template_name string, node *parse.CommandNode) (out string) {
if dev.SuperDebug {
fmt.Println("in compile_varswitch")
}
firstWord := node.Args[0]
switch n := firstWord.(type) {
case *parse.FieldNode:
if dev.SuperDebug {
fmt.Println("Field Node:", n.Ident)
for _, id := range n.Ident {
fmt.Println("Field Bit:", id)
}
}
/* Use reflect to determine if the field is for a method, otherwise assume it's a variable. Coming Soon. */
return c.compile_boolsub(n.String(), varholder, template_name, holdreflect)
case *parse.ChainNode:
if dev.SuperDebug {
fmt.Println("Chain Node:", n.Node)
fmt.Println("Chain Node Args:", node.Args)
}
break
case *parse.IdentifierNode:
if dev.SuperDebug {
fmt.Println("Identifier Node:", node)
fmt.Println("Identifier Node Args:", node.Args)
}
return c.compile_identswitch_n(varholder, holdreflect, template_name, node)
case *parse.DotNode:
return varholder
case *parse.VariableNode:
if dev.SuperDebug {
fmt.Println("Variable Node:", n.String())
fmt.Println("Variable Node Identifier:", n.Ident)
}
out, _ = c.compile_if_varsub(n.String(), varholder, template_name, holdreflect)
return out
case *parse.NilNode:
panic("Nil is not a command x.x")
case *parse.PipeNode:
if dev.SuperDebug {
fmt.Println("Pipe Node!")
fmt.Println(n)
fmt.Println("Args:", node.Args)
}
out += c.compile_identswitch_n(varholder, holdreflect, template_name, node)
if dev.SuperDebug {
fmt.Println("Out:", out)
}
return out
default:
fmt.Println("Unknown Kind:", reflect.ValueOf(firstWord).Elem().Kind())
fmt.Println("Unknown Type:", reflect.ValueOf(firstWord).Elem().Type().Name())
panic("I don't know what node this is! Grr...")
}
return ""
}
func (c *CTemplateSet) compile_identswitch_n(varholder string, holdreflect reflect.Value, template_name string, node *parse.CommandNode) (out string) {
if dev.SuperDebug {
fmt.Println("in compile_identswitch_n")
}
out, _ = c.compile_identswitch(varholder, holdreflect, template_name, node)
return out
}
func (c *CTemplateSet) compile_identswitch(varholder string, holdreflect reflect.Value, template_name string, node *parse.CommandNode) (out string, val reflect.Value) {
if dev.SuperDebug {
fmt.Println("in compile_identswitch")
}
//var outbuf map[int]string
ArgLoop:
for pos := 0; pos < len(node.Args); pos++ {
id := node.Args[pos]
if dev.SuperDebug {
fmt.Println("pos:", pos)
fmt.Println("ID:", id)
}
switch id.String() {
case "not":
out += "!"
case "or":
if dev.SuperDebug {
fmt.Println("Building or function")
}
if pos == 0 {
fmt.Println("pos:", pos)
panic("or is missing a left operand")
return out, val
}
if len(node.Args) <= pos {
fmt.Println("post pos:", pos)
fmt.Println("len(node.Args):", len(node.Args))
panic("or is missing a right operand")
return out, val
}
left := c.compile_boolsub(node.Args[pos - 1].String(), varholder, template_name, holdreflect)
_, funcExists := c.funcMap[node.Args[pos + 1].String()]
var right string
if !funcExists {
right = c.compile_boolsub(node.Args[pos + 1].String(), varholder, template_name, holdreflect)
}
out += left + " || " + right
if dev.SuperDebug {
fmt.Println("Left operand:", node.Args[pos - 1])
fmt.Println("Right operand:", node.Args[pos + 1])
}
if !funcExists {
pos++
}
if dev.SuperDebug {
fmt.Println("pos:", pos)
fmt.Println("len(node.Args):", len(node.Args))
}
case "and":
if dev.SuperDebug {
fmt.Println("Building and function")
}
if pos == 0 {
fmt.Println("pos:", pos)
panic("and is missing a left operand")
return out, val
}
if len(node.Args) <= pos {
fmt.Println("post pos:", pos)
fmt.Println("len(node.Args):", len(node.Args))
panic("and is missing a right operand")
return out, val
}
left := c.compile_boolsub(node.Args[pos - 1].String(), varholder, template_name, holdreflect)
_, funcExists := c.funcMap[node.Args[pos + 1].String()]
var right string
if !funcExists {
right = c.compile_boolsub(node.Args[pos + 1].String(), varholder, template_name, holdreflect)
}
out += left + " && " + right
if dev.SuperDebug {
fmt.Println("Left operand:", node.Args[pos - 1])
fmt.Println("Right operand:", node.Args[pos + 1])
}
if !funcExists {
pos++
}
if dev.SuperDebug {
fmt.Println("pos:", pos)
fmt.Println("len(node.Args):", len(node.Args))
}
case "le":
out += c.compile_if_varsub_n(node.Args[pos + 1].String(), varholder, template_name, holdreflect) + " <= " + c.compile_if_varsub_n(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if dev.SuperDebug {
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "lt":
out += c.compile_if_varsub_n(node.Args[pos + 1].String(), varholder, template_name, holdreflect) + " < " + c.compile_if_varsub_n(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if dev.SuperDebug {
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "gt":
out += c.compile_if_varsub_n(node.Args[pos + 1].String(), varholder, template_name, holdreflect) + " > " + c.compile_if_varsub_n(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if dev.SuperDebug {
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "ge":
out += c.compile_if_varsub_n(node.Args[pos + 1].String(), varholder, template_name, holdreflect) + " >= " + c.compile_if_varsub_n(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if dev.SuperDebug {
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "eq":
out += c.compile_if_varsub_n(node.Args[pos + 1].String(), varholder, template_name, holdreflect) + " == " + c.compile_if_varsub_n(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if dev.SuperDebug {
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "ne":
out += c.compile_if_varsub_n(node.Args[pos + 1].String(), varholder, template_name, holdreflect) + " != " + c.compile_if_varsub_n(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if dev.SuperDebug {
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "add":
param1, val2 := c.compile_if_varsub(node.Args[pos + 1].String(), varholder, template_name, holdreflect)
param2, val3 := c.compile_if_varsub(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if val2.IsValid() {
val = val2
} else if val3.IsValid() {
val = val3
} else {
numSample := 1
val = reflect.ValueOf(numSample)
}
out += param1 + " + " + param2
if dev.SuperDebug {
fmt.Println("add")
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "subtract":
param1, val2 := c.compile_if_varsub(node.Args[pos + 1].String(), varholder, template_name, holdreflect)
param2, val3 := c.compile_if_varsub(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if val2.IsValid() {
val = val2
} else if val3.IsValid() {
val = val3
} else {
numSample := 1
val = reflect.ValueOf(numSample)
}
out += param1 + " - " + param2
if dev.SuperDebug {
fmt.Println("subtract")
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "divide":
param1, val2 := c.compile_if_varsub(node.Args[pos + 1].String(), varholder, template_name, holdreflect)
param2, val3 := c.compile_if_varsub(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if val2.IsValid() {
val = val2
} else if val3.IsValid() {
val = val3
} else {
numSample := 1
val = reflect.ValueOf(numSample)
}
out += param1 + " / " + param2
if dev.SuperDebug {
fmt.Println("divide")
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
case "multiply":
param1, val2 := c.compile_if_varsub(node.Args[pos + 1].String(), varholder, template_name, holdreflect)
param2, val3 := c.compile_if_varsub(node.Args[pos + 2].String(), varholder, template_name, holdreflect)
if val2.IsValid() {
val = val2
} else if val3.IsValid() {
val = val3
} else {
numSample := 1
val = reflect.ValueOf(numSample)
}
out += param1 + " * " + param2
if dev.SuperDebug {
fmt.Println("multiply")
fmt.Println("node.Args[pos + 1]", node.Args[pos + 1])
fmt.Println("node.Args[pos + 2]", node.Args[pos + 2])
}
break ArgLoop
default:
if dev.SuperDebug {
fmt.Println("Variable!")
}
if len(node.Args) > (pos + 1) {
next_node := node.Args[pos + 1].String()
if next_node == "or" || next_node == "and" {
continue
}
}
out += c.compile_if_varsub_n(id.String(), varholder, template_name, holdreflect)
}
}
//for _, outval := range outbuf {
// out += outval
//}
return out, val
}
func (c *CTemplateSet) compile_reflectswitch(varholder string, holdreflect reflect.Value, template_name string, node *parse.CommandNode) (out string, outVal reflect.Value) {
if dev.SuperDebug {
fmt.Println("in compile_reflectswitch")
}
firstWord := node.Args[0]
switch n := firstWord.(type) {
case *parse.FieldNode:
if dev.SuperDebug {
fmt.Println("Field Node:", n.Ident)
for _, id := range n.Ident {
fmt.Println("Field Bit:", id)
}
}
/* Use reflect to determine if the field is for a method, otherwise assume it's a variable. Coming Soon. */
return c.compile_if_varsub(n.String(), varholder, template_name, holdreflect)
case *parse.ChainNode:
if dev.SuperDebug {
fmt.Println("Chain Node:", n.Node)
fmt.Println("node.Args", node.Args)
}
return "", outVal
case *parse.DotNode:
return varholder, holdreflect
case *parse.NilNode:
panic("Nil is not a command x.x")
default:
//panic("I don't know what node this is")
}
return "", outVal
}
func (c *CTemplateSet) compile_if_varsub_n(varname string, varholder string, template_name string, cur reflect.Value) (out string) {
if dev.SuperDebug {
fmt.Println("in compile_if_varsub_n")
}
out, _ = c.compile_if_varsub(varname, varholder, template_name, cur)
return out
}
func (c *CTemplateSet) compile_if_varsub(varname string, varholder string, template_name string, cur reflect.Value) (out string, val reflect.Value) {
if dev.SuperDebug {
fmt.Println("in compile_if_varsub")
}
if varname[0] != '.' && varname[0] != '$' {
return varname, cur
}
bits := strings.Split(varname,".")
if varname[0] == '$' {
var res VarItemReflect
if varname[1] == '.' {
res = c.localVars[template_name]["."]
} else {
res = c.localVars[template_name][strings.TrimPrefix(bits[0],"$")]
}
out += res.Destination
cur = res.Value
if cur.Kind() == reflect.Interface {
cur = cur.Elem()
}
} else {
if cur.Kind() == reflect.Interface {
cur = cur.Elem()
out += varholder + ".(" + cur.Type().Name() + ")"
} else {
out += varholder
}
}
bits[0] = strings.TrimPrefix(bits[0],"$")
if dev.SuperDebug {
fmt.Println("Cur Kind:", cur.Kind())
fmt.Println("Cur Type:", cur.Type().Name())
}
for _, bit := range bits {
if dev.SuperDebug {
fmt.Println("Variable Field:", bit)
}
if bit == "" {
continue
}
// TO-DO: Fix this up so that it works for regular pointers and not just struct pointers. Ditto for the other cur.Kind() == reflect.Ptr we have in this file
if cur.Kind() == reflect.Ptr {
if dev.SuperDebug {
fmt.Println("Looping over pointer")
}
for cur.Kind() == reflect.Ptr {
cur = cur.Elem()
}
if dev.SuperDebug {
fmt.Println("Data Kind:", cur.Kind().String())
fmt.Println("Field Bit:", bit)
}
}
cur = cur.FieldByName(bit)
if cur.Kind() == reflect.Interface {
cur = cur.Elem()
out += "." + bit + ".(" + cur.Type().Name() + ")"
} else {
out += "." + bit
}
if !cur.IsValid() {
panic(out + "^\n" + "Invalid value. Maybe, it doesn't exist?")
}
if dev.SuperDebug {
fmt.Println("Data Kind:", cur.Kind())
fmt.Println("Data Type:", cur.Type().Name())
}
}
if dev.SuperDebug {
fmt.Println("Out Value:", out)
fmt.Println("Out Kind:", cur.Kind())
fmt.Println("Out Type:", cur.Type().Name())
}
for _, varItem := range c.varList {
if strings.HasPrefix(out, varItem.Destination) {
out = strings.Replace(out, varItem.Destination, varItem.Name, 1)
}
}
if dev.SuperDebug {
fmt.Println("Out Value:", out)
fmt.Println("Out Kind:", cur.Kind())
fmt.Println("Out Type:", cur.Type().Name())
}
_, ok := c.stats[out]
if ok {
c.stats[out]++
} else {
c.stats[out] = 1
}
return out, cur
}
func (c *CTemplateSet) compile_boolsub(varname string, varholder string, template_name string, val reflect.Value) string {
if dev.SuperDebug {
fmt.Println("in compile_boolsub")
}
out, val := c.compile_if_varsub(varname, varholder, template_name, val)
switch val.Kind() {
case reflect.Int: out += " > 0"
case reflect.Bool: // Do nothing
case reflect.String: out += " != \"\""
case reflect.Int64: out += " > 0"
default:
fmt.Println("Variable Name:", varname)
fmt.Println("Variable Holder:", varholder)
fmt.Println("Variable Kind:", val.Kind())
panic("I don't know what this variable's type is o.o\n")
}
return out
}
func (c *CTemplateSet) compile_varsub(varname string, val reflect.Value) string {
if dev.SuperDebug {
fmt.Println("in compile_varsub")
}
for _, varItem := range c.varList {
if strings.HasPrefix(varname, varItem.Destination) {
varname = strings.Replace(varname, varItem.Destination, varItem.Name, 1)
}
}
_, ok := c.stats[varname]
if ok {
c.stats[varname]++
} else {
c.stats[varname] = 1
}
if val.Kind() == reflect.Interface {
val = val.Elem()
}
switch val.Kind() {
case reflect.Int:
c.importMap["strconv"] = "strconv"
return "w.Write([]byte(strconv.Itoa(" + varname + ")))\n"
case reflect.Bool:
return "if " + varname + " {\nw.Write([]byte(\"true\"))} else {\nw.Write([]byte(\"false\"))\n}\n"
case reflect.String:
if val.Type().Name() != "string" && !strings.HasPrefix(varname,"string(") {
return "w.Write([]byte(string(" + varname + ")))\n"
} else {
return "w.Write([]byte(" + varname + "))\n"
}
case reflect.Int64:
c.importMap["strconv"] = "strconv"
return "w.Write([]byte(strconv.FormatInt(" + varname + ", 10)))"
default:
if !val.IsValid() {
panic(varname + "^\n" + "Invalid value. Maybe, it doesn't exist?")
}
fmt.Println("Unknown Variable Name:", varname)
fmt.Println("Unknown Kind:", val.Kind())
fmt.Println("Unknown Type:", val.Type().Name())
panic("// I don't know what this variable's type is o.o\n")
}
}
func (c *CTemplateSet) compile_subtemplate(pvarholder string, pholdreflect reflect.Value, node *parse.TemplateNode) (out string) {
if dev.SuperDebug {
fmt.Println("in compile_subtemplate")
fmt.Println("Template Node:", node.Name)
}
fname := strings.TrimSuffix(node.Name, filepath.Ext(node.Name))
varholder := "tmpl_" + fname + "_vars"
var holdreflect reflect.Value
if node.Pipe != nil {
for _, cmd := range node.Pipe.Cmds {
firstWord := cmd.Args[0]
switch firstWord.(type) {
case *parse.DotNode:
varholder = pvarholder
holdreflect = pholdreflect
break
case *parse.NilNode:
panic("Nil is not a command x.x")
default:
out = "var " + varholder + " := false\n"
out += c.compile_command(cmd)
}
}
}
// TO-DO: Cascade errors back up the tree to the caller?
res, err := ioutil.ReadFile(c.dir + node.Name)
if err != nil {
log.Fatal(err)
}
content := string(res)
if config.MinifyTemplates {
content = minify(content)
}
tree := parse.New(node.Name, c.funcMap)
var treeSet map[string]*parse.Tree = make(map[string]*parse.Tree)
tree, err = tree.Parse(content,"{{","}}", treeSet, c.funcMap)
if err != nil {
log.Fatal(err)
}
c.tlist[fname] = tree
subtree := c.tlist[fname]
if dev.SuperDebug {
fmt.Println("subtree.Root", subtree.Root)
}
c.localVars[fname] = make(map[string]VarItemReflect)
c.localVars[fname]["."] = VarItemReflect{".",varholder,holdreflect}
c.FragmentCursor[fname] = 0
treeLength := len(subtree.Root.Nodes)
for index, node := range subtree.Root.Nodes {
if dev.SuperDebug {
fmt.Println("Node:", node.String())
}
c.previousNode = c.currentNode
c.currentNode = node.Type()
if treeLength != (index + 1) {
c.nextNode = subtree.Root.Nodes[index + 1].Type()
}
out += c.compile_switch(varholder, holdreflect, fname, node)
}
return out
}
func (c *CTemplateSet) compile_command(*parse.CommandNode) (out string) {
panic("Uh oh! Something went wrong!")
return ""
}
// TO-DO: Write unit tests for this
func minify(data string) string {
data = strings.Replace(data,"\t","",-1)
data = strings.Replace(data,"\v","",-1)
data = strings.Replace(data,"\n","",-1)
data = strings.Replace(data,"\r","",-1)
data = strings.Replace(data," "," ",-1)
return data
}
// TO-DO: Strip comments
// TO-DO: Handle CSS nested in <style> tags?
// TO-DO: Write unit tests for this
func minify_html(data string) string {
return minify(data)
}
// TO-DO: Have static files use this
// TO-DO: Strip comments
// TO-DO: Convert the rgb()s to hex codes?
// TO-DO: Write unit tests for this
func minify_css(data string) string {
return minify(data)
}
// TO-DO: Convert this to three character hex strings whenever possible?
// TO-DO: Write unit tests for this
func rgb_to_hexstr(red int, green int, blue int) string {
return strconv.FormatInt(int64(red), 16) + strconv.FormatInt(int64(green), 16) + strconv.FormatInt(int64(blue), 16)
}
/*
// TO-DO: Write unit tests for this
func hexstr_to_rgb(hexstr string) (red int, blue int, green int, err error) {
// Strip the # at the start
if hexstr[0] == '#' {
hexstr = strings.TrimPrefix(hexstr,"#")
}
if len(hexstr) != 3 && len(hexstr) != 6 {
return 0, 0, 0, errors.New("Hex colour codes may only be three or six characters long")
}
if len(hexstr) == 3 {
hexstr = hexstr[0] + hexstr[0] + hexstr[1] + hexstr[1] + hexstr[2] + hexstr[2]
}
}*/
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