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Luis Pater
2025-09-25 10:31:02 +08:00
parent 84248b6ec2
commit 3f69254f43
222 changed files with 0 additions and 40389 deletions
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288
internal/translator/gemini/openai/chat-completions/gemini_openai_request.go
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@@ -1,288 +0,0 @@
// Package openai provides request translation functionality for OpenAI to Gemini API compatibility.
// It converts OpenAI Chat Completions requests into Gemini compatible JSON using gjson/sjson only.
package chat_completions
import (
"bytes"
"fmt"
"strings"
"github.com/router-for-me/CLIProxyAPI/v6/internal/misc"
"github.com/router-for-me/CLIProxyAPI/v6/internal/util"
log "github.com/sirupsen/logrus"
"github.com/tidwall/gjson"
"github.com/tidwall/sjson"
)
// ConvertOpenAIRequestToGemini converts an OpenAI Chat Completions request (raw JSON)
// into a complete Gemini request JSON. All JSON construction uses sjson and lookups use gjson.
//
// Parameters:
// - modelName: The name of the model to use for the request
// - rawJSON: The raw JSON request data from the OpenAI API
// - stream: A boolean indicating if the request is for a streaming response (unused in current implementation)
//
// Returns:
// - []byte: The transformed request data in Gemini API format
func ConvertOpenAIRequestToGemini(modelName string, inputRawJSON []byte, _ bool) []byte {
rawJSON := bytes.Clone(inputRawJSON)
// Base envelope
out := []byte(`{"contents":[],"generationConfig":{"thinkingConfig":{"include_thoughts":true}}}`)
// Model
out, _ = sjson.SetBytes(out, "model", modelName)
// Reasoning effort -> thinkingBudget/include_thoughts
re := gjson.GetBytes(rawJSON, "reasoning_effort")
if re.Exists() {
switch re.String() {
case "none":
out, _ = sjson.DeleteBytes(out, "generationConfig.thinkingConfig.include_thoughts")
out, _ = sjson.SetBytes(out, "generationConfig.thinkingConfig.thinkingBudget", 0)
case "auto":
out, _ = sjson.SetBytes(out, "generationConfig.thinkingConfig.thinkingBudget", -1)
case "low":
out, _ = sjson.SetBytes(out, "generationConfig.thinkingConfig.thinkingBudget", 1024)
case "medium":
out, _ = sjson.SetBytes(out, "generationConfig.thinkingConfig.thinkingBudget", 8192)
case "high":
out, _ = sjson.SetBytes(out, "generationConfig.thinkingConfig.thinkingBudget", 24576)
default:
out, _ = sjson.SetBytes(out, "generationConfig.thinkingConfig.thinkingBudget", -1)
}
} else {
out, _ = sjson.SetBytes(out, "generationConfig.thinkingConfig.thinkingBudget", -1)
}
// Temperature/top_p/top_k
if tr := gjson.GetBytes(rawJSON, "temperature"); tr.Exists() && tr.Type == gjson.Number {
out, _ = sjson.SetBytes(out, "generationConfig.temperature", tr.Num)
}
if tpr := gjson.GetBytes(rawJSON, "top_p"); tpr.Exists() && tpr.Type == gjson.Number {
out, _ = sjson.SetBytes(out, "generationConfig.topP", tpr.Num)
}
if tkr := gjson.GetBytes(rawJSON, "top_k"); tkr.Exists() && tkr.Type == gjson.Number {
out, _ = sjson.SetBytes(out, "generationConfig.topK", tkr.Num)
}
// messages -> systemInstruction + contents
messages := gjson.GetBytes(rawJSON, "messages")
if messages.IsArray() {
arr := messages.Array()
// First pass: assistant tool_calls id->name map
tcID2Name := map[string]string{}
for i := 0; i < len(arr); i++ {
m := arr[i]
if m.Get("role").String() == "assistant" {
tcs := m.Get("tool_calls")
if tcs.IsArray() {
for _, tc := range tcs.Array() {
if tc.Get("type").String() == "function" {
id := tc.Get("id").String()
name := tc.Get("function.name").String()
if id != "" && name != "" {
tcID2Name[id] = name
}
}
}
}
}
}
// Second pass build systemInstruction/tool responses cache
toolResponses := map[string]string{} // tool_call_id -> response text
for i := 0; i < len(arr); i++ {
m := arr[i]
role := m.Get("role").String()
if role == "tool" {
toolCallID := m.Get("tool_call_id").String()
if toolCallID != "" {
c := m.Get("content")
if c.Type == gjson.String {
toolResponses[toolCallID] = c.String()
} else if c.IsObject() && c.Get("type").String() == "text" {
toolResponses[toolCallID] = c.Get("text").String()
}
}
}
}
for i := 0; i < len(arr); i++ {
m := arr[i]
role := m.Get("role").String()
content := m.Get("content")
if role == "system" && len(arr) > 1 {
// system -> system_instruction as a user message style
if content.Type == gjson.String {
out, _ = sjson.SetBytes(out, "system_instruction.role", "user")
out, _ = sjson.SetBytes(out, "system_instruction.parts.0.text", content.String())
} else if content.IsObject() && content.Get("type").String() == "text" {
out, _ = sjson.SetBytes(out, "system_instruction.role", "user")
out, _ = sjson.SetBytes(out, "system_instruction.parts.0.text", content.Get("text").String())
}
} else if role == "user" || (role == "system" && len(arr) == 1) {
// Build single user content node to avoid splitting into multiple contents
node := []byte(`{"role":"user","parts":[]}`)
if content.Type == gjson.String {
node, _ = sjson.SetBytes(node, "parts.0.text", content.String())
} else if content.IsArray() {
items := content.Array()
p := 0
for _, item := range items {
switch item.Get("type").String() {
case "text":
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".text", item.Get("text").String())
p++
case "image_url":
imageURL := item.Get("image_url.url").String()
if len(imageURL) > 5 {
pieces := strings.SplitN(imageURL[5:], ";", 2)
if len(pieces) == 2 && len(pieces[1]) > 7 {
mime := pieces[0]
data := pieces[1][7:]
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".inlineData.mime_type", mime)
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".inlineData.data", data)
p++
}
}
case "file":
filename := item.Get("file.filename").String()
fileData := item.Get("file.file_data").String()
ext := ""
if sp := strings.Split(filename, "."); len(sp) > 1 {
ext = sp[len(sp)-1]
}
if mimeType, ok := misc.MimeTypes[ext]; ok {
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".inlineData.mime_type", mimeType)
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".inlineData.data", fileData)
p++
} else {
log.Warnf("Unknown file name extension '%s' in user message, skip", ext)
}
}
}
}
out, _ = sjson.SetRawBytes(out, "contents.-1", node)
} else if role == "assistant" {
if content.Type == gjson.String {
// Assistant text -> single model content
node := []byte(`{"role":"model","parts":[{"text":""}]}`)
node, _ = sjson.SetBytes(node, "parts.0.text", content.String())
out, _ = sjson.SetRawBytes(out, "contents.-1", node)
} else if content.IsArray() {
// Assistant multimodal content (e.g. text + image) -> single model content with parts
node := []byte(`{"role":"model","parts":[]}`)
p := 0
for _, item := range content.Array() {
switch item.Get("type").String() {
case "text":
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".text", item.Get("text").String())
p++
case "image_url":
// If the assistant returned an inline data URL, preserve it for history fidelity.
imageURL := item.Get("image_url.url").String()
if len(imageURL) > 5 { // expect data:...
pieces := strings.SplitN(imageURL[5:], ";", 2)
if len(pieces) == 2 && len(pieces[1]) > 7 {
mime := pieces[0]
data := pieces[1][7:]
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".inlineData.mime_type", mime)
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".inlineData.data", data)
p++
}
}
}
}
out, _ = sjson.SetRawBytes(out, "contents.-1", node)
} else if !content.Exists() || content.Type == gjson.Null {
// Tool calls -> single model content with functionCall parts
tcs := m.Get("tool_calls")
if tcs.IsArray() {
node := []byte(`{"role":"model","parts":[]}`)
p := 0
fIDs := make([]string, 0)
for _, tc := range tcs.Array() {
if tc.Get("type").String() != "function" {
continue
}
fid := tc.Get("id").String()
fname := tc.Get("function.name").String()
fargs := tc.Get("function.arguments").String()
node, _ = sjson.SetBytes(node, "parts."+itoa(p)+".functionCall.name", fname)
node, _ = sjson.SetRawBytes(node, "parts."+itoa(p)+".functionCall.args", []byte(fargs))
p++
if fid != "" {
fIDs = append(fIDs, fid)
}
}
out, _ = sjson.SetRawBytes(out, "contents.-1", node)
// Append a single tool content combining name + response per function
toolNode := []byte(`{"role":"tool","parts":[]}`)
pp := 0
for _, fid := range fIDs {
if name, ok := tcID2Name[fid]; ok {
toolNode, _ = sjson.SetBytes(toolNode, "parts."+itoa(pp)+".functionResponse.name", name)
resp := toolResponses[fid]
if resp == "" {
resp = "{}"
}
toolNode, _ = sjson.SetRawBytes(toolNode, "parts."+itoa(pp)+".functionResponse.response", []byte(`{"result":`+quoteIfNeeded(resp)+`}`))
pp++
}
}
if pp > 0 {
out, _ = sjson.SetRawBytes(out, "contents.-1", toolNode)
}
}
}
}
}
}
// tools -> tools[0].functionDeclarations
tools := gjson.GetBytes(rawJSON, "tools")
if tools.IsArray() && len(tools.Array()) > 0 {
out, _ = sjson.SetRawBytes(out, "tools", []byte(`[{"functionDeclarations":[]}]`))
fdPath := "tools.0.functionDeclarations"
for _, t := range tools.Array() {
if t.Get("type").String() == "function" {
fn := t.Get("function")
if fn.Exists() && fn.IsObject() {
out, _ = sjson.SetRawBytes(out, fdPath+".-1", []byte(fn.Raw))
}
}
}
}
var pathsToType []string
root := gjson.ParseBytes(out)
util.Walk(root, "", "type", &pathsToType)
for _, p := range pathsToType {
typeResult := gjson.GetBytes(out, p)
if strings.ToLower(typeResult.String()) == "select" {
out, _ = sjson.SetBytes(out, p, "STRING")
}
}
return out
}
// itoa converts int to string without strconv import for few usages.
func itoa(i int) string { return fmt.Sprintf("%d", i) }
// quoteIfNeeded ensures a string is valid JSON value (quotes plain text), pass-through for JSON objects/arrays.
func quoteIfNeeded(s string) string {
s = strings.TrimSpace(s)
if s == "" {
return "\"\""
}
if len(s) > 0 && (s[0] == '{' || s[0] == '[') {
return s
}
// escape quotes minimally
s = strings.ReplaceAll(s, "\\", "\\\\")
s = strings.ReplaceAll(s, "\"", "\\\"")
return "\"" + s + "\""
}

294
internal/translator/gemini/openai/chat-completions/gemini_openai_response.go
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@@ -1,294 +0,0 @@
// Package openai provides response translation functionality for Gemini to OpenAI API compatibility.
// This package handles the conversion of Gemini API responses into OpenAI Chat Completions-compatible
// JSON format, transforming streaming events and non-streaming responses into the format
// expected by OpenAI API clients. It supports both streaming and non-streaming modes,
// handling text content, tool calls, reasoning content, and usage metadata appropriately.
package chat_completions
import (
"bytes"
"context"
"encoding/json"
"fmt"
"time"
"github.com/tidwall/gjson"
"github.com/tidwall/sjson"
)
// convertGeminiResponseToOpenAIChatParams holds parameters for response conversion.
type convertGeminiResponseToOpenAIChatParams struct {
UnixTimestamp int64
}
// ConvertGeminiResponseToOpenAI translates a single chunk of a streaming response from the
// Gemini API format to the OpenAI Chat Completions streaming format.
// It processes various Gemini event types and transforms them into OpenAI-compatible JSON responses.
// The function handles text content, tool calls, reasoning content, and usage metadata, outputting
// responses that match the OpenAI API format. It supports incremental updates for streaming responses.
//
// Parameters:
// - ctx: The context for the request, used for cancellation and timeout handling
// - modelName: The name of the model being used for the response (unused in current implementation)
// - rawJSON: The raw JSON response from the Gemini API
// - param: A pointer to a parameter object for maintaining state between calls
//
// Returns:
// - []string: A slice of strings, each containing an OpenAI-compatible JSON response
func ConvertGeminiResponseToOpenAI(_ context.Context, _ string, originalRequestRawJSON, requestRawJSON, rawJSON []byte, param *any) []string {
if *param == nil {
*param = &convertGeminiResponseToOpenAIChatParams{
UnixTimestamp: 0,
}
}
if bytes.HasPrefix(rawJSON, []byte("data:")) {
rawJSON = bytes.TrimSpace(rawJSON[5:])
}
if bytes.Equal(rawJSON, []byte("[DONE]")) {
return []string{}
}
// Initialize the OpenAI SSE template.
template := `{"id":"","object":"chat.completion.chunk","created":12345,"model":"model","choices":[{"index":0,"delta":{"role":null,"content":null,"reasoning_content":null,"tool_calls":null},"finish_reason":null,"native_finish_reason":null}]}`
// Extract and set the model version.
if modelVersionResult := gjson.GetBytes(rawJSON, "modelVersion"); modelVersionResult.Exists() {
template, _ = sjson.Set(template, "model", modelVersionResult.String())
}
// Extract and set the creation timestamp.
if createTimeResult := gjson.GetBytes(rawJSON, "createTime"); createTimeResult.Exists() {
t, err := time.Parse(time.RFC3339Nano, createTimeResult.String())
if err == nil {
(*param).(*convertGeminiResponseToOpenAIChatParams).UnixTimestamp = t.Unix()
}
template, _ = sjson.Set(template, "created", (*param).(*convertGeminiResponseToOpenAIChatParams).UnixTimestamp)
} else {
template, _ = sjson.Set(template, "created", (*param).(*convertGeminiResponseToOpenAIChatParams).UnixTimestamp)
}
// Extract and set the response ID.
if responseIDResult := gjson.GetBytes(rawJSON, "responseId"); responseIDResult.Exists() {
template, _ = sjson.Set(template, "id", responseIDResult.String())
}
// Extract and set the finish reason.
if finishReasonResult := gjson.GetBytes(rawJSON, "candidates.0.finishReason"); finishReasonResult.Exists() {
template, _ = sjson.Set(template, "choices.0.finish_reason", finishReasonResult.String())
template, _ = sjson.Set(template, "choices.0.native_finish_reason", finishReasonResult.String())
}
// Extract and set usage metadata (token counts).
if usageResult := gjson.GetBytes(rawJSON, "usageMetadata"); usageResult.Exists() {
if candidatesTokenCountResult := usageResult.Get("candidatesTokenCount"); candidatesTokenCountResult.Exists() {
template, _ = sjson.Set(template, "usage.completion_tokens", candidatesTokenCountResult.Int())
}
if totalTokenCountResult := usageResult.Get("totalTokenCount"); totalTokenCountResult.Exists() {
template, _ = sjson.Set(template, "usage.total_tokens", totalTokenCountResult.Int())
}
promptTokenCount := usageResult.Get("promptTokenCount").Int()
thoughtsTokenCount := usageResult.Get("thoughtsTokenCount").Int()
template, _ = sjson.Set(template, "usage.prompt_tokens", promptTokenCount+thoughtsTokenCount)
if thoughtsTokenCount > 0 {
template, _ = sjson.Set(template, "usage.completion_tokens_details.reasoning_tokens", thoughtsTokenCount)
}
}
// Process the main content part of the response.
partsResult := gjson.GetBytes(rawJSON, "candidates.0.content.parts")
if partsResult.IsArray() {
partResults := partsResult.Array()
for i := 0; i < len(partResults); i++ {
partResult := partResults[i]
partTextResult := partResult.Get("text")
functionCallResult := partResult.Get("functionCall")
inlineDataResult := partResult.Get("inlineData")
if !inlineDataResult.Exists() {
inlineDataResult = partResult.Get("inline_data")
}
if partTextResult.Exists() {
// Handle text content, distinguishing between regular content and reasoning/thoughts.
if partResult.Get("thought").Bool() {
template, _ = sjson.Set(template, "choices.0.delta.reasoning_content", partTextResult.String())
} else {
template, _ = sjson.Set(template, "choices.0.delta.content", partTextResult.String())
}
template, _ = sjson.Set(template, "choices.0.delta.role", "assistant")
} else if functionCallResult.Exists() {
// Handle function call content.
toolCallsResult := gjson.Get(template, "choices.0.delta.tool_calls")
if !toolCallsResult.Exists() || !toolCallsResult.IsArray() {
template, _ = sjson.SetRaw(template, "choices.0.delta.tool_calls", `[]`)
}
functionCallTemplate := `{"id": "","type": "function","function": {"name": "","arguments": ""}}`
fcName := functionCallResult.Get("name").String()
functionCallTemplate, _ = sjson.Set(functionCallTemplate, "id", fmt.Sprintf("%s-%d", fcName, time.Now().UnixNano()))
functionCallTemplate, _ = sjson.Set(functionCallTemplate, "function.name", fcName)
if fcArgsResult := functionCallResult.Get("args"); fcArgsResult.Exists() {
functionCallTemplate, _ = sjson.Set(functionCallTemplate, "function.arguments", fcArgsResult.Raw)
}
template, _ = sjson.Set(template, "choices.0.delta.role", "assistant")
template, _ = sjson.SetRaw(template, "choices.0.delta.tool_calls.-1", functionCallTemplate)
} else if inlineDataResult.Exists() {
data := inlineDataResult.Get("data").String()
if data == "" {
continue
}
mimeType := inlineDataResult.Get("mimeType").String()
if mimeType == "" {
mimeType = inlineDataResult.Get("mime_type").String()
}
if mimeType == "" {
mimeType = "image/png"
}
imageURL := fmt.Sprintf("data:%s;base64,%s", mimeType, data)
imagePayload, err := json.Marshal(map[string]any{
"type": "image_url",
"image_url": map[string]string{
"url": imageURL,
},
})
if err != nil {
continue
}
imagesResult := gjson.Get(template, "choices.0.delta.images")
if !imagesResult.Exists() || !imagesResult.IsArray() {
template, _ = sjson.SetRaw(template, "choices.0.delta.images", `[]`)
}
template, _ = sjson.Set(template, "choices.0.delta.role", "assistant")
template, _ = sjson.SetRaw(template, "choices.0.delta.images.-1", string(imagePayload))
}
}
}
return []string{template}
}
// ConvertGeminiResponseToOpenAINonStream converts a non-streaming Gemini response to a non-streaming OpenAI response.
// This function processes the complete Gemini response and transforms it into a single OpenAI-compatible
// JSON response. It handles message content, tool calls, reasoning content, and usage metadata, combining all
// the information into a single response that matches the OpenAI API format.
//
// Parameters:
// - ctx: The context for the request, used for cancellation and timeout handling
// - modelName: The name of the model being used for the response (unused in current implementation)
// - rawJSON: The raw JSON response from the Gemini API
// - param: A pointer to a parameter object for the conversion (unused in current implementation)
//
// Returns:
// - string: An OpenAI-compatible JSON response containing all message content and metadata
func ConvertGeminiResponseToOpenAINonStream(_ context.Context, _ string, originalRequestRawJSON, requestRawJSON, rawJSON []byte, _ *any) string {
var unixTimestamp int64
template := `{"id":"","object":"chat.completion","created":123456,"model":"model","choices":[{"index":0,"message":{"role":"assistant","content":null,"reasoning_content":null,"tool_calls":null},"finish_reason":null,"native_finish_reason":null}]}`
if modelVersionResult := gjson.GetBytes(rawJSON, "modelVersion"); modelVersionResult.Exists() {
template, _ = sjson.Set(template, "model", modelVersionResult.String())
}
if createTimeResult := gjson.GetBytes(rawJSON, "createTime"); createTimeResult.Exists() {
t, err := time.Parse(time.RFC3339Nano, createTimeResult.String())
if err == nil {
unixTimestamp = t.Unix()
}
template, _ = sjson.Set(template, "created", unixTimestamp)
} else {
template, _ = sjson.Set(template, "created", unixTimestamp)
}
if responseIDResult := gjson.GetBytes(rawJSON, "responseId"); responseIDResult.Exists() {
template, _ = sjson.Set(template, "id", responseIDResult.String())
}
if finishReasonResult := gjson.GetBytes(rawJSON, "candidates.0.finishReason"); finishReasonResult.Exists() {
template, _ = sjson.Set(template, "choices.0.finish_reason", finishReasonResult.String())
template, _ = sjson.Set(template, "choices.0.native_finish_reason", finishReasonResult.String())
}
if usageResult := gjson.GetBytes(rawJSON, "usageMetadata"); usageResult.Exists() {
if candidatesTokenCountResult := usageResult.Get("candidatesTokenCount"); candidatesTokenCountResult.Exists() {
template, _ = sjson.Set(template, "usage.completion_tokens", candidatesTokenCountResult.Int())
}
if totalTokenCountResult := usageResult.Get("totalTokenCount"); totalTokenCountResult.Exists() {
template, _ = sjson.Set(template, "usage.total_tokens", totalTokenCountResult.Int())
}
promptTokenCount := usageResult.Get("promptTokenCount").Int()
thoughtsTokenCount := usageResult.Get("thoughtsTokenCount").Int()
template, _ = sjson.Set(template, "usage.prompt_tokens", promptTokenCount+thoughtsTokenCount)
if thoughtsTokenCount > 0 {
template, _ = sjson.Set(template, "usage.completion_tokens_details.reasoning_tokens", thoughtsTokenCount)
}
}
// Process the main content part of the response.
partsResult := gjson.GetBytes(rawJSON, "candidates.0.content.parts")
if partsResult.IsArray() {
partsResults := partsResult.Array()
for i := 0; i < len(partsResults); i++ {
partResult := partsResults[i]
partTextResult := partResult.Get("text")
functionCallResult := partResult.Get("functionCall")
inlineDataResult := partResult.Get("inlineData")
if !inlineDataResult.Exists() {
inlineDataResult = partResult.Get("inline_data")
}
if partTextResult.Exists() {
// Append text content, distinguishing between regular content and reasoning.
if partResult.Get("thought").Bool() {
template, _ = sjson.Set(template, "choices.0.message.reasoning_content", partTextResult.String())
} else {
template, _ = sjson.Set(template, "choices.0.message.content", partTextResult.String())
}
template, _ = sjson.Set(template, "choices.0.message.role", "assistant")
} else if functionCallResult.Exists() {
// Append function call content to the tool_calls array.
toolCallsResult := gjson.Get(template, "choices.0.message.tool_calls")
if !toolCallsResult.Exists() || !toolCallsResult.IsArray() {
template, _ = sjson.SetRaw(template, "choices.0.message.tool_calls", `[]`)
}
functionCallItemTemplate := `{"id": "","type": "function","function": {"name": "","arguments": ""}}`
fcName := functionCallResult.Get("name").String()
functionCallItemTemplate, _ = sjson.Set(functionCallItemTemplate, "id", fmt.Sprintf("%s-%d", fcName, time.Now().UnixNano()))
functionCallItemTemplate, _ = sjson.Set(functionCallItemTemplate, "function.name", fcName)
if fcArgsResult := functionCallResult.Get("args"); fcArgsResult.Exists() {
functionCallItemTemplate, _ = sjson.Set(functionCallItemTemplate, "function.arguments", fcArgsResult.Raw)
}
template, _ = sjson.Set(template, "choices.0.message.role", "assistant")
template, _ = sjson.SetRaw(template, "choices.0.message.tool_calls.-1", functionCallItemTemplate)
} else if inlineDataResult.Exists() {
data := inlineDataResult.Get("data").String()
if data == "" {
continue
}
mimeType := inlineDataResult.Get("mimeType").String()
if mimeType == "" {
mimeType = inlineDataResult.Get("mime_type").String()
}
if mimeType == "" {
mimeType = "image/png"
}
imageURL := fmt.Sprintf("data:%s;base64,%s", mimeType, data)
imagePayload, err := json.Marshal(map[string]any{
"type": "image_url",
"image_url": map[string]string{
"url": imageURL,
},
})
if err != nil {
continue
}
imagesResult := gjson.Get(template, "choices.0.message.images")
if !imagesResult.Exists() || !imagesResult.IsArray() {
template, _ = sjson.SetRaw(template, "choices.0.message.images", `[]`)
}
template, _ = sjson.Set(template, "choices.0.message.role", "assistant")
template, _ = sjson.SetRaw(template, "choices.0.message.images.-1", string(imagePayload))
}
}
}
return template
}

19
internal/translator/gemini/openai/chat-completions/init.go
View File

@@ -1,19 +0,0 @@
package chat_completions
import (
. "github.com/router-for-me/CLIProxyAPI/v6/internal/constant"
"github.com/router-for-me/CLIProxyAPI/v6/internal/interfaces"
"github.com/router-for-me/CLIProxyAPI/v6/internal/translator/translator"
)
func init() {
translator.Register(
OpenAI,
Gemini,
ConvertOpenAIRequestToGemini,
interfaces.TranslateResponse{
Stream: ConvertGeminiResponseToOpenAI,
NonStream: ConvertGeminiResponseToOpenAINonStream,
},
)
}