54 Commits

Author SHA1 Message Date
qguillaume
1e27d01f17 fix: on enleve les 85% qui rognent puisqu on utilise mlkit et non le cadre vert 2026-06-07 01:06:11 +02:00
qguillaume
8dd78f6b80 feat: test effacer partie overlay 2026-06-06 11:22:53 +02:00
qguillaume
23c3bb178f feat: reintegration (en cours) de ml kit lecteur de doc 2026-06-06 01:32:16 +02:00
qguillaume
18e591f3fc fix: legere baisse resolution pour augmenter fluidité de l appli 2026-06-06 00:26:38 +02:00
qguillaume
13cf5b70e0 fix: retour arriere leger zoom du au 85% crop 2026-06-05 23:55:43 +02:00
qguillaume
f0b15941cf fix: on revire ml kit on essaie d ameliorer la detection des cercles 2026-06-05 23:05:11 +02:00
qguillaume
9f9f9beb84 feat: target rectify service pour perfectionner la prise de photo avec detection 2026-06-05 22:27:53 +02:00
qguillaume
c49c8b8c73 fix: cadre toujours orange 2026-06-05 22:06:05 +02:00
qguillaume
61b5fcfe22 fix: ajout untrack files 2026-06-05 21:30:59 +02:00
qguillaume
f65c5e6a3f feat: object detection service 2026-06-05 21:18:48 +02:00
qguillaume
d487c98e3d fix: parallelisme service permissif et correctif capture screen 2026-06-05 20:33:04 +02:00
qguillaume
9cb37fc303 feat: construction du service parallelisme 2026-06-05 19:47:18 +02:00
qguillaume
3ae9ceebc1 fix: lenteur de l appli capture screen 2026-06-05 17:38:25 +02:00
qguillaume
251d4bb599 fix: lenteur de l appli 2026-06-05 17:18:29 +02:00
qguillaume
ccc6eb609a fix(analysis): correctif réel du zoom post prise de photo 2026-06-05 07:42:07 +02:00
qguillaume
9e0427f750 fix(analysis): normaliser les coordonnées de la cible pour annuler l'effet du zoom initial 2026-06-04 23:32:38 +02:00
qguillaume
a5d0251545 fix(camera): synchroniser le ratio de visée 3/4 avec le capteur natif et corriger le décalage du crop 2026-05-27 17:44:57 +02:00
qguillaume
730629a031 fix(crop): stabiliser le rectangle géométrique de découpe et l'enchaînement des zooms 2026-05-27 15:36:56 +02:00
qguillaume
4d2ca2c94f refactor(crop_screen): restrict rotation bounds to 15 degrees with high-precision decimal steps 2026-05-27 14:48:57 +02:00
qguillaume
ab45786d0c fix(analysis): appliquer la transformation globale sur le GestureDetector pour restaurer le drag-and-drop 2026-05-27 12:16:35 +02:00
qguillaume
95e62abe47 fix(analysis): appliquer la rotation du crop sur l'image en modes calibration et plotting 2026-05-27 12:11:00 +02:00
qguillaume
04c1204116 fix(calibration): préserver les rayons d'origine de l'IA lors du redimensionnement et corriger le reset 2026-05-27 11:56:07 +02:00
qguillaume
78c9fc96c9 feat(session): ajout du sélecteur de date et persistance dans l'historique de tir 2026-05-27 00:57:26 +02:00
qguillaume
e570bd4296 fix(calibration): application de la rotation et du centrage sur l'image globale 2026-05-27 00:23:48 +02:00
qguillaume
02c0d449e4 fix(calibration): application du crop sur l'écran de calibration 2026-05-27 00:03:29 +02:00
qguillaume
eabe7511bd feat(crop): masque opaque à coins droits pour cacher l'extérieur du cadre de découpe 2026-05-26 23:41:06 +02:00
qguillaume
620e12a1fd feat(crop): ajout de lignes de visée perpendiculaires sur toute la zone pour aligner la cible 2026-05-26 23:36:50 +02:00
qguillaume
622f2936de ui(plotting): décalage visuel de l'impact lors du glisser pour éviter de le cacher avec le doigt 2026-05-26 23:23:45 +02:00
qguillaume
814f778e6c feat(crop): remplacement de la rotation à deux doigts par une jauge précise centrée à zéro 2026-05-26 22:52:59 +02:00
qguillaume
2f493ef622 feat(setup): choix d'arme obligatoire, redirection armurerie et max balles à 50 2026-05-26 22:41:44 +02:00
qguillaume
33e1522df0 reword: Démarrer la session (home_screen) devient Nouvelle session 2026-05-26 22:29:37 +02:00
qguillaume
653264c6a1 Refactor: Amélioration globale de l'expérience de cadrage et de l'interface de capture 2026-05-26 18:09:39 +02:00
qguillaume
750732eafe Feat: Ajout de la rotation à deux doigts de l'image sur l'écran de Crop 2026-05-26 17:07:16 +02:00
qguillaume
f40bfc0ba7 Feat: Ajout du glisser-déposer par appui long pour repositionner les impacts de tir 2026-05-26 17:03:21 +02:00
qguillaume
b721583e98 Feat: Ajout du double-tap sur l'écran d'analyse pour l'édition rapide des impacts 2026-05-26 16:47:37 +02:00
qguillaume
18c01c3767 Style: Optimisation des curseurs de calibration et bridage des limites 2026-05-26 16:40:14 +02:00
qguillaume
0af6a0d8e2 Feat: Bouton de clôture de session (80/20) sur l'accueil et reset de l'espacement 2026-05-26 14:59:25 +02:00
qguillaume
fbd631c8e4 Workflow: Inversion du flux pour calibrer la cible avant d'afficher l'écran de Plotting 2026-05-25 13:52:20 +02:00
qguillaume
3088c5ee91 Refactor: Ajustement des valeurs limites de taille (0.5 à 1.1) pour synchroniser le slider et le geste tactile 2026-05-25 13:14:51 +02:00
qguillaume
fe6d52902b Refactor: Optimisation du range du slider de Taille pour améliorer la précision de calibration 2026-05-25 13:00:04 +02:00
qguillaume
48b8313be8 Feat: Ajout d'un switch pour masquer ou afficher le slider d'espacement de la cible 2026-05-25 03:12:37 +02:00
qguillaume
a9ff826246 Design: Remplacement du point rouge par une mire vert fluo interne dans le viseur 2026-05-25 02:59:46 +02:00
qguillaume
f149fe092b Fix: Passage à l'appareil photo classique et suppression de l'auto-capture 2026-05-25 02:43:31 +02:00
streaper2
774dbfcf40 feat: implement base architecture and core repositories for weapon tracking and target analysis functionality 2026-05-08 20:29:18 +02:00
streaper2
5dd58da51c Merge backend branch and restore functionalities 2026-05-08 08:34:16 +02:00
streaper2
8910a0a87e chore: remove backendia node_modules and build files from git 2026-05-08 08:33:32 +02:00
streaper2
0895b7d5bc Restore UI functionalities and clean up dependencies 2026-05-08 08:32:58 +02:00
qguillaume
8946955f76 feat: passage du filtre date à une sélection de période (DateRange) dans l'historique 2026-05-06 23:17:22 +02:00
qguillaume
be62669d56 feat: intégration de la vue validation image (20) 2026-05-06 23:05:13 +02:00
qguillaume
db6dd0cee5 feat: refonte des statistiques (00C) et correction ergonomique de la capture (10C) 2026-05-06 22:39:30 +02:00
qguillaume
d98f54cf93 Ajout de la gestion des permissions photos et configuration native Android/iOS 2026-05-05 18:05:49 +02:00
qguillaume
55f6210c97 feat: change titre et ajout nettoyer objectif dans capture screen 2026-05-05 16:53:29 +02:00
qguillaume
8d9b35104a Fix: Intégration du DatePicker français et mise à jour des dépendances SDK 2026-05-05 16:36:14 +02:00
qguillaume
5cc67228e4 MAJ0.1 accueil et historique 2026-05-03 16:46:05 +02:00
75 changed files with 7292 additions and 3855 deletions

12
.gitignore vendored
View File

@@ -43,3 +43,15 @@ app.*.map.json
/android/app/debug
/android/app/profile
/android/app/release
# Backendia
backendia/node_modules/
backendia/dashboard/node_modules/
backendia/dashboard/.next/
backendia/dashboard/out/
backendia/exports/*.zip
backendia/uploads/images/*
!backendia/uploads/images/.gitkeep
backendia/uploads/data/*
!backendia/uploads/data/.gitkeep
!backendia/uploads/data/database.sqlite

BIN
analysis_report.txt Normal file

Binary file not shown.

View File

@@ -1,6 +1,11 @@
<manifest xmlns:android="http://schemas.android.com/apk/res/android">
<uses-permission android:name="android.permission.CAMERA" />
<!-- Pour Android 12 et inférieur -->
<uses-permission android:name="android.permission.READ_EXTERNAL_STORAGE" android:maxSdkVersion="32" />
<!-- Pour Android 13 et supérieur -->
<uses-permission android:name="android.permission.READ_MEDIA_IMAGES" />
<application
android:label="bully"
android:name="${applicationName}"
@@ -32,6 +37,9 @@
<meta-data
android:name="flutterEmbedding"
android:value="2" />
<meta-data
android:name="com.google.mlkit.vision.DEPENDENCIES"
android:value="docscanner" />
</application>
<!-- Required to query activities that can process text, see:
https://developer.android.com/training/package-visibility and

6
backendia/dashboard/next-env.d.ts vendored Normal file
View File

@@ -0,0 +1,6 @@
/// <reference types="next" />
/// <reference types="next/image-types/global" />
import "./.next/dev/types/routes.d.ts";
// NOTE: This file should not be edited
// see https://nextjs.org/docs/app/api-reference/config/typescript for more information.

View File

@@ -0,0 +1,116 @@
{
"session_id": "session_1777452202935",
"timestamp": "2026-04-29T08:43:22.943303",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
"norm_x": 0.09999999999999998,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.9
},
{
"norm_x": 0.09999999999999998,
"norm_y": 0.9
}
],
"impacts": [
{
"id": 1,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.3934941044560185,
"norm_y": 0.665676540798611
}
},
{
"id": 2,
"label": "bullet_hole",
"score": 5,
"coords": {
"norm_x": 0.6055302372685185,
"norm_y": 0.6953124999999999
}
},
{
"id": 3,
"label": "bullet_hole",
"score": 8,
"coords": {
"norm_x": 0.5981137876157407,
"norm_y": 0.5249565972222221
}
},
{
"id": 4,
"label": "bullet_hole",
"score": 6,
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}
},
{
"id": 5,
"label": "bullet_hole",
"score": 9,
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}
},
{
"id": 6,
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"score": 9,
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}
},
{
"id": 7,
"label": "bullet_hole",
"score": 7,
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{
"id": 8,
"label": "bullet_hole",
"score": 9,
"coords": {
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}
},
{
"id": 9,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.3379521122685185,
"norm_y": 0.4397786458333333
}
}
]
}
}

View File

@@ -0,0 +1,116 @@
{
"session_id": "session_1777452481252",
"timestamp": "2026-04-29T08:48:01.259705",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
"norm_x": 0.09999999999999998,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.9
},
{
"norm_x": 0.09999999999999998,
"norm_y": 0.9
}
],
"impacts": [
{
"id": 1,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.3934941044560185,
"norm_y": 0.665676540798611
}
},
{
"id": 2,
"label": "bullet_hole",
"score": 5,
"coords": {
"norm_x": 0.6055302372685185,
"norm_y": 0.6953124999999999
}
},
{
"id": 3,
"label": "bullet_hole",
"score": 8,
"coords": {
"norm_x": 0.5981137876157407,
"norm_y": 0.5249565972222221
}
},
{
"id": 4,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.6759033203125,
"norm_y": 0.4786376953125
}
},
{
"id": 5,
"label": "bullet_hole",
"score": 9,
"coords": {
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"norm_y": 0.5490315755208333
}
},
{
"id": 6,
"label": "bullet_hole",
"score": 9,
"coords": {
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"norm_y": 0.43238661024305547
}
},
{
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"score": 7,
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}
},
{
"id": 8,
"label": "bullet_hole",
"score": 9,
"coords": {
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}
},
{
"id": 9,
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"coords": {
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"norm_y": 0.4397786458333333
}
}
]
}
}

View File

@@ -0,0 +1,44 @@
{
"session_id": "session_1777452613625",
"timestamp": "2026-04-29T08:50:13.631206",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
"norm_x": 0.09999999999999998,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.9
},
{
"norm_x": 0.09999999999999998,
"norm_y": 0.9
}
],
"impacts": [
{
"id": 1,
"label": "bullet_hole",
"score": 10,
"coords": {
"norm_x": 0.49810836226851846,
"norm_y": 0.4981011284722222
}
}
]
}
}

View File

@@ -0,0 +1,144 @@
{
"session_id": "session_1777463308809",
"wallet_hash": "cc60fcaa5ef7fdc9be3dd1adba4157fa6dfae2845da45b830b5ef2b7f473d887",
"timestamp": "2026-04-29T11:48:28.834236",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
"norm_x": 0.09999999999999998,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.9
},
{
"norm_x": 0.09999999999999998,
"norm_y": 0.9
}
],
"impacts": [
{
"id": 1,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.38424660011574074,
"norm_y": 0.3666042751736111
}
},
{
"id": 2,
"label": "bullet_hole",
"score": 7,
"coords": {
"norm_x": 0.6055302372685185,
"norm_y": 0.396240234375
}
},
{
"id": 3,
"label": "bullet_hole",
"score": 7,
"coords": {
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"norm_y": 0.5999620225694443
}
},
{
"id": 4,
"label": "bullet_hole",
"score": 6,
"coords": {
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"norm_y": 0.5592041015625
}
},
{
"id": 5,
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},
{
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}
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{
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]
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}

View File

@@ -0,0 +1,117 @@
{
"session_id": "session_1777463703756",
"wallet_hash": "cc60fcaa5ef7fdc9be3dd1adba4157fa6dfae2845da45b830b5ef2b7f473d887",
"timestamp": "2026-04-29T11:55:03.765285",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
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},
{
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},
{
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{
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}
],
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}
},
{
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},
{
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}
]
}
}

View File

@@ -0,0 +1,117 @@
{
"session_id": "session_1777464156234",
"wallet_hash": "cc60fcaa5ef7fdc9be3dd1adba4157fa6dfae2845da45b830b5ef2b7f473d887",
"timestamp": "2026-04-29T12:02:36.255849",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
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},
{
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},
{
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{
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],
"impacts": [
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},
{
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"score": 6,
"coords": {
"norm_x": 0.5490415219907407,
"norm_y": 0.66845703125
}
},
{
"id": 4,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.405517578125,
"norm_y": 0.6758490668402777
}
},
{
"id": 5,
"label": "bullet_hole",
"score": 3,
"coords": {
"norm_x": 0.7268066406249999,
"norm_y": 0.6758490668402777
}
},
{
"id": 6,
"label": "bullet_hole",
"score": 9,
"coords": {
"norm_x": 0.5471806278935185,
"norm_y": 0.529568142361111
}
},
{
"id": 7,
"label": "bullet_hole",
"score": 8,
"coords": {
"norm_x": 0.44720504195601846,
"norm_y": 0.5980631510416666
}
},
{
"id": 8,
"label": "bullet_hole",
"score": 8,
"coords": {
"norm_x": 0.45458984375,
"norm_y": 0.4221462673611111
}
},
{
"id": 9,
"label": "bullet_hole",
"score": 7,
"coords": {
"norm_x": 0.5203251591435185,
"norm_y": 0.3638237847222222
}
}
]
}
}

View File

@@ -0,0 +1,180 @@
{
"session_id": "session_1777464607256",
"wallet_hash": "cc60fcaa5ef7fdc9be3dd1adba4157fa6dfae2845da45b830b5ef2b7f473d887",
"timestamp": "2026-04-29T12:10:07.260954",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
"norm_x": 0.09999999999999998,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.9
},
{
"norm_x": 0.09999999999999998,
"norm_y": 0.9
}
],
"impacts": [
{
"id": 1,
"label": "bullet_hole",
"score": 3,
"coords": {
"norm_x": 0.31570457175925926,
"norm_y": 0.7388509114583333
}
},
{
"id": 2,
"label": "bullet_hole",
"score": 5,
"coords": {
"norm_x": 0.3184814453125,
"norm_y": 0.6489935980902778
}
},
{
"id": 3,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.3110966435185185,
"norm_y": 0.529568142361111
}
},
{
"id": 4,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.31570457175925926,
"norm_y": 0.4416097005208333
}
},
{
"id": 5,
"label": "bullet_hole",
"score": 4,
"coords": {
"norm_x": 0.31570457175925926,
"norm_y": 0.34252929687499994
}
},
{
"id": 6,
"label": "bullet_hole",
"score": 3,
"coords": {
"norm_x": 0.32589699074074074,
"norm_y": 0.2332763671875
}
},
{
"id": 7,
"label": "bullet_hole",
"score": 3,
"coords": {
"norm_x": 0.45458984375,
"norm_y": 0.19624837239583331
}
},
{
"id": 8,
"label": "bullet_hole",
"score": 3,
"coords": {
"norm_x": 0.5981137876157407,
"norm_y": 0.23049587673611108
}
},
{
"id": 9,
"label": "bullet_hole",
"score": 5,
"coords": {
"norm_x": 0.6907045717592593,
"norm_y": 0.3546006944444444
}
},
{
"id": 10,
"label": "bullet_hole",
"score": 5,
"coords": {
"norm_x": 0.699951171875,
"norm_y": 0.48046875
}
},
{
"id": 11,
"label": "bullet_hole",
"score": 7,
"coords": {
"norm_x": 0.6268310546874999,
"norm_y": 0.5416395399305556
}
},
{
"id": 12,
"label": "bullet_hole",
"score": 9,
"coords": {
"norm_x": 0.49072265624999994,
"norm_y": 0.5610351562499999
}
},
{
"id": 13,
"label": "bullet_hole",
"score": 8,
"coords": {
"norm_x": 0.4203495732060185,
"norm_y": 0.536960177951389
}
},
{
"id": 14,
"label": "bullet_hole",
"score": 6,
"coords": {
"norm_x": 0.5370180483217593,
"norm_y": 0.6879204644097222
}
},
{
"id": 15,
"label": "bullet_hole",
"score": 3,
"coords": {
"norm_x": 0.6175537109375,
"norm_y": 0.7601453993055556
}
},
{
"id": 16,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.7027280454282406,
"norm_y": 0.8406439887152777
}
}
]
}
}

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@@ -0,0 +1 @@
# Keep directory structure

View File

@@ -0,0 +1,270 @@
{
"session_id": "session_1777553535029",
"wallet_hash": "cc60fcaa5ef7fdc9be3dd1adba4157fa6dfae2845da45b830b5ef2b7f473d887",
"timestamp": "2026-04-30T12:52:15.048830",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
"norm_x": 0.09999999999999998,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.9
},
{
"norm_x": 0.09999999999999998,
"norm_y": 0.9
}
],
"impacts": [
{
"id": 1,
"label": "bullet_hole",
"score": 0,
"coords": {
"norm_x": 0.17681929976851848,
"norm_y": 0.8851318359375
}
},
{
"id": 2,
"label": "bullet_hole",
"score": 0,
"coords": {
"norm_x": 0.17681929976851848,
"norm_y": 0.7721489800347222
}
},
{
"id": 3,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.17959617332175923,
"norm_y": 0.6888020833333334
}
},
{
"id": 4,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.17959617332175923,
"norm_y": 0.6342095269097222
}
},
{
"id": 5,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.17959617332175923,
"norm_y": 0.560153537326389
}
},
{
"id": 6,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.17959617332175923,
"norm_y": 0.5138346354166666
}
},
{
"id": 7,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.1814579716435185,
"norm_y": 0.45273166232638884
}
},
{
"id": 8,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.18701171875,
"norm_y": 0.3878987630208333
}
},
{
"id": 9,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.18887351707175926,
"norm_y": 0.2925482855902778
}
},
{
"id": 10,
"label": "bullet_hole",
"score": 0,
"coords": {
"norm_x": 0.2036747685185185,
"norm_y": 0.20085991753472218
}
},
{
"id": 11,
"label": "bullet_hole",
"score": 0,
"coords": {
"norm_x": 0.27035499855324074,
"norm_y": 0.16200086805555558
}
},
{
"id": 12,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.37588523582175926,
"norm_y": 0.1546088324652778
}
},
{
"id": 13,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.46292136863425926,
"norm_y": 0.1518283420138889
}
},
{
"id": 14,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.6814579716435185,
"norm_y": 0.1499294704861111
}
},
{
"id": 15,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.5509033203125,
"norm_y": 0.1546088324652778
}
},
{
"id": 16,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.6156919126157407,
"norm_y": 0.1546088324652778
}
},
{
"id": 17,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.7703251591435185,
"norm_y": 0.2360568576388889
}
},
{
"id": 18,
"label": "bullet_hole",
"score": 4,
"coords": {
"norm_x": 0.7110595703125,
"norm_y": 0.3536512586805555
}
},
{
"id": 19,
"label": "bullet_hole",
"score": 7,
"coords": {
"norm_x": 0.6027524594907407,
"norm_y": 0.4129231770833333
}
},
{
"id": 20,
"label": "bullet_hole",
"score": 9,
"coords": {
"norm_x": 0.4823911313657407,
"norm_y": 0.4304877387152777
}
},
{
"id": 21,
"label": "bullet_hole",
"score": 7,
"coords": {
"norm_x": 0.39627097800925926,
"norm_y": 0.43509928385416663
}
},
{
"id": 22,
"label": "bullet_hole",
"score": 5,
"coords": {
"norm_x": 0.289794921875,
"norm_y": 0.43238661024305547
}
},
{
"id": 23,
"label": "bullet_hole",
"score": 2,
"coords": {
"norm_x": 0.7166440610532407,
"norm_y": 0.7693684895833333
}
},
{
"id": 24,
"label": "bullet_hole",
"score": 3,
"coords": {
"norm_x": 0.7314453125,
"norm_y": 0.7008734809027778
}
},
{
"id": 25,
"label": "bullet_hole",
"score": 1,
"coords": {
"norm_x": 0.7879331235532407,
"norm_y": 0.7601453993055556
}
},
{
"id": 26,
"label": "bullet_hole",
"score": 0,
"coords": {
"norm_x": 0.736083984375,
"norm_y": 0.828640407986111
}
}
]
}
}

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@@ -0,0 +1 @@
# Keep directory structure

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@@ -0,0 +1,90 @@
{
"session_id": "session_1777554006515",
"wallet_hash": "cc60fcaa5ef7fdc9be3dd1adba4157fa6dfae2845da45b830b5ef2b7f473d887",
"timestamp": "2026-04-30T13:00:06.519693",
"device_info": {
"model": "google sdk_gphone64_x86_64",
"os": "Android 16"
},
"target_metadata": {
"type": "concentric",
"distance_meters": 25,
"weapon": "Unknown"
},
"plotting": {
"target_corners": [
{
"norm_x": 0.09999999999999998,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.09999999999999998
},
{
"norm_x": 0.9,
"norm_y": 0.9
},
{
"norm_x": 0.09999999999999998,
"norm_y": 0.9
}
],
"impacts": [
{
"id": 1,
"label": "bullet_hole",
"score": 5,
"coords": {
"norm_x": 0.267578125,
"norm_y": 0.5554741753472222
}
},
{
"id": 2,
"label": "bullet_hole",
"score": 7,
"coords": {
"norm_x": 0.5712583188657407,
"norm_y": 0.3592800564236111
}
},
{
"id": 3,
"label": "bullet_hole",
"score": 4,
"coords": {
"norm_x": 0.7555239076967593,
"norm_y": 0.5703938802083333
}
},
{
"id": 4,
"label": "bullet_hole",
"score": 4,
"coords": {
"norm_x": 0.6666259765625,
"norm_y": 0.6759168836805556
}
},
{
"id": 5,
"label": "bullet_hole",
"score": 9,
"coords": {
"norm_x": 0.5490415219907407,
"norm_y": 0.5212944878472222
}
},
{
"id": 6,
"label": "bullet_hole",
"score": 8,
"coords": {
"norm_x": 0.4897768373842592,
"norm_y": 0.39352756076388895
}
}
]
}
}

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@@ -2,8 +2,13 @@
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>NSCameraUsageDescription</key>
<string>This app needs camera access to scan documents</string>
<dict>
<key>NSPhotoLibraryUsageDescription</key>
<string>Bully a besoin d'accéder à vos photos pour analyser vos cibles enregistrées.</string>
<key>NSCameraUsageDescription</key>
<string>Bully a besoin d'utiliser l'appareil photo pour scanner vos cibles en temps réel.</string>
<key>NSMicrophoneUsageDescription</key>
<string>Bully a besoin d'accéder au micro (requis par certains services de caméra même si non utilisé).</string>
<key>CADisableMinimumFrameDurationOnPhone</key>
<true/>
<key>CFBundleDevelopmentRegion</key>

View File

@@ -1,19 +1,36 @@
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
import 'core/theme/theme_provider.dart';
import 'core/theme/app_theme.dart';
import 'main_navigation_holder.dart';
import 'features/home/home_screen.dart';
import 'package:flutter_localizations/flutter_localizations.dart';
class BullyApp extends StatelessWidget {
const BullyApp({super.key});
@override
Widget build(BuildContext context) {
return MaterialApp(
title: 'Bully - Analyse de Cibles',
debugShowCheckedModeBanner: false,
theme: AppTheme.lightTheme,
darkTheme: AppTheme.darkTheme,
themeMode: ThemeMode.system,
home: const HomeScreen(),
return Consumer<ThemeProvider>(
builder: (context, themeProvider, child) {
return MaterialApp(
title: 'Bully - Analyse de Cibles',
debugShowCheckedModeBanner: false,
theme: AppTheme.lightTheme,
darkTheme: AppTheme.darkTheme,
themeMode: themeProvider.themeMode,
localizationsDelegates: const [
GlobalMaterialLocalizations.delegate,
GlobalWidgetsLocalizations.delegate,
GlobalCupertinoLocalizations.delegate,
],
supportedLocales: const [
Locale('fr', 'FR'), // Français
],
locale: const Locale('fr', 'FR'), // Force l'interface en français
home: const MainNavigationHolder(),
);
},
);
}
}

View File

@@ -3,11 +3,14 @@ class AppConstants {
// Database
static const String databaseName = 'bully_targets.db';
static const int databaseVersion = 1;
static const int databaseVersion = 6;
// Tables
static const String sessionsTable = 'sessions';
static const String targetAnalysesTable = 'target_analyses';
static const String shotsTable = 'shots';
static const String weaponsTable = 'weapons';
static const String maintenanceTable = 'weapon_maintenance';
// Image processing
static const double minImpactRadius = 2.0;

View File

@@ -0,0 +1,44 @@
import 'package:flutter/material.dart';
import 'package:shared_preferences/shared_preferences.dart';
class ThemeProvider with ChangeNotifier {
static const String _themeModeKey = 'user_theme_mode';
ThemeMode _themeMode = ThemeMode.system;
ThemeMode get themeMode => _themeMode;
ThemeProvider() {
loadThemeMode();
}
Future<void> loadThemeMode() async {
final prefs = await SharedPreferences.getInstance();
final modeIndex = prefs.getInt(_themeModeKey);
if (modeIndex != null) {
_themeMode = ThemeMode.values[modeIndex];
notifyListeners();
}
}
Future<void> setThemeMode(ThemeMode mode) async {
if (_themeMode == mode) return;
_themeMode = mode;
notifyListeners();
final prefs = await SharedPreferences.getInstance();
await prefs.setInt(_themeModeKey, mode.index);
}
String get themeModeName {
switch (_themeMode) {
case ThemeMode.system:
return 'Automatique';
case ThemeMode.light:
return 'Clair';
case ThemeMode.dark:
return 'Sombre';
}
}
}

View File

@@ -1,7 +1,11 @@
import 'dart:io';
import 'package:sqflite/sqflite.dart';
import 'package:path/path.dart';
import '../models/session.dart';
import '../models/target_analysis.dart';
import '../models/shot.dart';
import '../models/weapon.dart';
import '../models/maintenance.dart';
import '../../core/constants/app_constants.dart';
class DatabaseHelper {
@@ -36,6 +40,19 @@ class DatabaseHelper {
await db.execute('''
CREATE TABLE ${AppConstants.sessionsTable} (
id TEXT PRIMARY KEY,
weapon TEXT NOT NULL,
weapon_id TEXT,
max_shots_per_target INTEGER NOT NULL,
created_at TEXT NOT NULL,
notes TEXT,
distance INTEGER DEFAULT 25
)
''');
await db.execute('''
CREATE TABLE ${AppConstants.targetAnalysesTable} (
id TEXT PRIMARY KEY,
session_id TEXT NOT NULL,
target_type TEXT NOT NULL,
image_path TEXT NOT NULL,
total_score INTEGER NOT NULL,
@@ -46,7 +63,8 @@ class DatabaseHelper {
notes TEXT,
target_center_x REAL,
target_center_y REAL,
target_radius REAL
target_radius REAL,
FOREIGN KEY (session_id) REFERENCES ${AppConstants.sessionsTable}(id) ON DELETE CASCADE
)
''');
@@ -56,48 +74,262 @@ class DatabaseHelper {
x REAL NOT NULL,
y REAL NOT NULL,
score INTEGER NOT NULL,
session_id TEXT NOT NULL,
FOREIGN KEY (session_id) REFERENCES ${AppConstants.sessionsTable}(id) ON DELETE CASCADE
analysis_id TEXT NOT NULL,
FOREIGN KEY (analysis_id) REFERENCES ${AppConstants.targetAnalysesTable}(id) ON DELETE CASCADE
)
''');
await db.execute('''
CREATE INDEX idx_shots_session_id ON ${AppConstants.shotsTable}(session_id)
CREATE INDEX idx_target_analyses_session_id ON ${AppConstants.targetAnalysesTable}(session_id)
''');
await db.execute('''
CREATE INDEX idx_shots_analysis_id ON ${AppConstants.shotsTable}(analysis_id)
''');
await db.execute('''
CREATE INDEX idx_sessions_created_at ON ${AppConstants.sessionsTable}(created_at DESC)
''');
await db.execute('''
CREATE TABLE ${AppConstants.weaponsTable} (
id TEXT PRIMARY KEY,
name TEXT NOT NULL,
type TEXT NOT NULL,
caliber TEXT NOT NULL,
magazine_count INTEGER NOT NULL,
magazine_capacity INTEGER NOT NULL,
notes TEXT,
created_at TEXT NOT NULL,
optic TEXT,
silencer TEXT,
trigger TEXT,
custom_name TEXT
)
''');
await db.execute('''
CREATE TABLE ${AppConstants.maintenanceTable} (
id TEXT PRIMARY KEY,
weapon_id TEXT NOT NULL,
type TEXT NOT NULL,
description TEXT NOT NULL,
date TEXT NOT NULL,
rounds_since_last INTEGER,
FOREIGN KEY (weapon_id) REFERENCES ${AppConstants.weaponsTable}(id) ON DELETE CASCADE
)
''');
}
Future<void> _onUpgrade(Database db, int oldVersion, int newVersion) async {
// Handle future database migrations here
if (oldVersion < 2) {
// Migration from single-target sessions to multi-target sessions
// 1. Rename existing sessions table to a temporary name
await db.execute('ALTER TABLE ${AppConstants.sessionsTable} RENAME TO sessions_old');
// 2. Create the new sessions table
await db.execute('''
CREATE TABLE ${AppConstants.sessionsTable} (
id TEXT PRIMARY KEY,
weapon TEXT NOT NULL,
max_shots_per_target INTEGER NOT NULL,
created_at TEXT NOT NULL,
notes TEXT
)
''');
// 3. Create the new target_analyses table
await db.execute('''
CREATE TABLE ${AppConstants.targetAnalysesTable} (
id TEXT PRIMARY KEY,
session_id TEXT NOT NULL,
target_type TEXT NOT NULL,
image_path TEXT NOT NULL,
total_score INTEGER NOT NULL,
grouping_diameter REAL,
grouping_center_x REAL,
grouping_center_y REAL,
created_at TEXT NOT NULL,
notes TEXT,
target_center_x REAL,
target_center_y REAL,
target_radius REAL,
FOREIGN KEY (session_id) REFERENCES ${AppConstants.sessionsTable}(id) ON DELETE CASCADE
)
''');
// 4. Update shots table (rename session_id to analysis_id)
await db.execute('ALTER TABLE ${AppConstants.shotsTable} RENAME TO shots_old');
await db.execute('''
CREATE TABLE ${AppConstants.shotsTable} (
id TEXT PRIMARY KEY,
x REAL NOT NULL,
y REAL NOT NULL,
score INTEGER NOT NULL,
analysis_id TEXT NOT NULL,
FOREIGN KEY (analysis_id) REFERENCES ${AppConstants.targetAnalysesTable}(id) ON DELETE CASCADE
)
''');
// 5. Migrate data
// For each old session, create one session and one target_analysis
final oldSessions = await db.query('sessions_old');
for (final old in oldSessions) {
final sessionId = old['id'] as String;
final analysisId = 'analysis_$sessionId'; // Create a unique ID for the analysis
// Insert into new sessions
await db.insert(AppConstants.sessionsTable, {
'id': sessionId,
'weapon': 'Inconnue',
'max_shots_per_target': 5,
'created_at': old['created_at'],
'notes': old['notes'],
});
// Insert into target_analyses
await db.insert(AppConstants.targetAnalysesTable, {
'id': analysisId,
'session_id': sessionId,
'target_type': old['target_type'],
'image_path': old['image_path'],
'total_score': old['total_score'],
'grouping_diameter': old['grouping_diameter'],
'grouping_center_x': old['grouping_center_x'],
'grouping_center_y': old['grouping_center_y'],
'created_at': old['created_at'],
'notes': null,
'target_center_x': old['target_center_x'],
'target_center_y': old['target_center_y'],
'target_radius': old['target_radius'],
});
// Migrate shots from shots_old to shots
final oldShots = await db.query('shots_old', where: 'session_id = ?', whereArgs: [sessionId]);
for (final shot in oldShots) {
await db.insert(AppConstants.shotsTable, {
'id': shot['id'],
'x': shot['x'],
'y': shot['y'],
'score': shot['score'],
'analysis_id': analysisId,
});
}
}
// 6. Cleanup
await db.execute('DROP TABLE sessions_old');
await db.execute('DROP TABLE shots_old');
// 7. Re-create indexes
await db.execute('''
CREATE INDEX idx_target_analyses_session_id ON ${AppConstants.targetAnalysesTable}(session_id)
''');
await db.execute('''
CREATE INDEX idx_shots_analysis_id ON ${AppConstants.shotsTable}(analysis_id)
''');
await db.execute('''
CREATE INDEX idx_sessions_created_at ON ${AppConstants.sessionsTable}(created_at DESC)
''');
}
if (oldVersion < 3) {
// Add weapons table
await db.execute('''
CREATE TABLE ${AppConstants.weaponsTable} (
id TEXT PRIMARY KEY,
name TEXT NOT NULL,
type TEXT NOT NULL,
caliber TEXT NOT NULL,
magazine_count INTEGER NOT NULL,
magazine_capacity INTEGER NOT NULL,
notes TEXT,
created_at TEXT NOT NULL
)
''');
// Add weapon_id to sessions table
await db.execute('ALTER TABLE ${AppConstants.sessionsTable} ADD COLUMN weapon_id TEXT');
}
if (oldVersion < 4) {
// Add maintenance table
await db.execute('''
CREATE TABLE ${AppConstants.maintenanceTable} (
id TEXT PRIMARY KEY,
weapon_id TEXT NOT NULL,
type TEXT NOT NULL,
description TEXT NOT NULL,
date TEXT NOT NULL,
rounds_since_last INTEGER,
FOREIGN KEY (weapon_id) REFERENCES ${AppConstants.weaponsTable}(id) ON DELETE CASCADE
)
''');
}
if (oldVersion < 5) {
// Add new weapon options columns
await db.execute('ALTER TABLE ${AppConstants.weaponsTable} ADD COLUMN optic TEXT');
await db.execute('ALTER TABLE ${AppConstants.weaponsTable} ADD COLUMN silencer TEXT');
await db.execute('ALTER TABLE ${AppConstants.weaponsTable} ADD COLUMN "trigger" TEXT');
await db.execute('ALTER TABLE ${AppConstants.weaponsTable} ADD COLUMN custom_name TEXT');
}
if (oldVersion < 6) {
// Add distance column to sessions
await db.execute('ALTER TABLE ${AppConstants.sessionsTable} ADD COLUMN distance INTEGER DEFAULT 25');
}
}
// Session operations
Future<int> insertSession(Session session) async {
final db = await database;
return await db.transaction((txn) async {
// INTERCEPTION ET FIX DE LA DATE ICI :
// On extrait la map générée et on force la colonne created_at avec la vraie date de l'objet
final Map<String, dynamic> sessionMap = Map.from(session.toMap());
sessionMap['created_at'] = session.createdAt.toIso8601String();
await txn.insert(
AppConstants.sessionsTable,
session.toMap(),
sessionMap, // On utilise notre map corrigée au lieu de session.toMap() direct !
conflictAlgorithm: ConflictAlgorithm.replace,
);
for (final shot in session.shots) {
// Ensure shot has correct session_id
final shotWithSessionId = shot.copyWith(sessionId: session.id);
await txn.insert(
AppConstants.shotsTable,
shotWithSessionId.toMap(),
conflictAlgorithm: ConflictAlgorithm.replace,
);
for (final analysis in session.analyses) {
await insertTargetAnalysisTx(txn, analysis, session.id);
}
return 1;
});
}
Future<void> insertTargetAnalysis(TargetAnalysis analysis, String sessionId) async {
final db = await database;
await db.transaction((txn) async {
await insertTargetAnalysisTx(txn, analysis, sessionId);
});
}
Future<void> insertTargetAnalysisTx(Transaction txn, TargetAnalysis analysis, String sessionId) async {
final analysisWithSessionId = analysis.copyWith(sessionId: sessionId);
await txn.insert(
AppConstants.targetAnalysesTable,
analysisWithSessionId.toMap(),
conflictAlgorithm: ConflictAlgorithm.replace,
);
for (final shot in analysis.shots) {
final shotWithAnalysisId = shot.copyWith(analysisId: analysis.id);
await txn.insert(
AppConstants.shotsTable,
shotWithAnalysisId.toMap(),
conflictAlgorithm: ConflictAlgorithm.replace,
);
}
}
Future<Session?> getSession(String id) async {
final db = await database;
final sessionMaps = await db.query(
@@ -108,106 +340,52 @@ class DatabaseHelper {
if (sessionMaps.isEmpty) return null;
final shotMaps = await db.query(
AppConstants.shotsTable,
final analysisMaps = await db.query(
AppConstants.targetAnalysesTable,
where: 'session_id = ?',
whereArgs: [id],
);
final shots = shotMaps.map((map) => Shot.fromMap(map)).toList();
return Session.fromMap(sessionMaps.first, shots);
final analyses = <TargetAnalysis>[];
for (final analysisMap in analysisMaps) {
final analysisId = analysisMap['id'] as String;
final shotMaps = await db.query(
AppConstants.shotsTable,
where: 'analysis_id = ?',
whereArgs: [analysisId],
);
final shots = shotMaps.map((map) => Shot.fromMap(map)).toList();
analyses.add(TargetAnalysis.fromMap(analysisMap, shots));
}
return Session.fromMap(sessionMaps.first, analyses);
}
Future<List<Session>> getAllSessions({
String? targetType,
int? limit,
int? offset,
}) async {
final db = await database;
String? whereClause;
List<dynamic>? whereArgs;
if (targetType != null) {
whereClause = 'target_type = ?';
whereArgs = [targetType];
}
final sessionMaps = await db.query(
AppConstants.sessionsTable,
where: whereClause,
whereArgs: whereArgs,
orderBy: 'created_at DESC',
limit: limit,
offset: offset,
);
// First, check if there are orphaned shots (with empty session_id)
// and only one session - if so, assign them to that session
if (sessionMaps.length == 1) {
final orphanedShots = await db.query(
AppConstants.shotsTable,
where: 'session_id = ?',
whereArgs: [''],
);
if (orphanedShots.isNotEmpty) {
await db.update(
AppConstants.shotsTable,
{'session_id': sessionMaps.first['id']},
where: 'session_id = ?',
whereArgs: [''],
);
}
}
final sessions = <Session>[];
for (final sessionMap in sessionMaps) {
final sessionId = sessionMap['id'] as String;
final shotMaps = await db.query(
AppConstants.shotsTable,
where: 'session_id = ?',
whereArgs: [sessionId],
);
final shots = shotMaps.map((map) => Shot.fromMap(map)).toList();
sessions.add(Session.fromMap(sessionMap, shots));
final session = await getSession(sessionId);
if (session != null) {
sessions.add(session);
}
}
return sessions;
}
Future<int> updateSession(Session session) async {
final db = await database;
return await db.transaction((txn) async {
await txn.update(
AppConstants.sessionsTable,
session.toMap(),
where: 'id = ?',
whereArgs: [session.id],
);
// Delete existing shots and insert new ones
await txn.delete(
AppConstants.shotsTable,
where: 'session_id = ?',
whereArgs: [session.id],
);
for (final shot in session.shots) {
// Ensure shot has correct session_id
final shotWithSessionId = shot.copyWith(sessionId: session.id);
await txn.insert(
AppConstants.shotsTable,
shotWithSessionId.toMap(),
conflictAlgorithm: ConflictAlgorithm.replace,
);
}
return 1;
});
}
Future<int> deleteSession(String id) async {
final db = await database;
return await db.delete(
@@ -229,12 +407,12 @@ class DatabaseHelper {
) ?? 0;
final avgScore = (await db.rawQuery(
'SELECT AVG(total_score) as avg FROM ${AppConstants.sessionsTable}',
'SELECT AVG(total_score) as avg FROM ${AppConstants.targetAnalysesTable}',
)).first['avg'] as double? ?? 0.0;
final bestScore = Sqflite.firstIntValue(
await db.rawQuery(
'SELECT MAX(total_score) FROM ${AppConstants.sessionsTable}',
'SELECT MAX(total_score) FROM ${AppConstants.targetAnalysesTable}',
),
) ?? 0;
@@ -246,6 +424,121 @@ class DatabaseHelper {
};
}
// Weapon operations
Future<int> insertWeapon(Weapon weapon) async {
final db = await database;
return await db.insert(
AppConstants.weaponsTable,
weapon.toMap(),
conflictAlgorithm: ConflictAlgorithm.replace,
);
}
Future<List<Weapon>> getAllWeapons() async {
final db = await database;
final List<Map<String, dynamic>> maps = await db.query(AppConstants.weaponsTable, orderBy: 'name ASC');
return List.generate(maps.length, (i) => Weapon.fromMap(maps[i]));
}
Future<Weapon?> getWeapon(String id) async {
final db = await database;
final List<Map<String, dynamic>> maps = await db.query(
AppConstants.weaponsTable,
where: 'id = ?',
whereArgs: [id],
);
if (maps.isEmpty) return null;
return Weapon.fromMap(maps.first);
}
Future<int> updateWeapon(Weapon weapon) async {
final db = await database;
// Start a transaction to ensure both updates succeed
return await db.transaction((txn) async {
// 1. Update weapon in armory
final count = await txn.update(
AppConstants.weaponsTable,
weapon.toMap(),
where: 'id = ?',
whereArgs: [weapon.id],
);
// 2. Propagate name change to all sessions linked to this weapon
await txn.update(
AppConstants.sessionsTable,
{'weapon': weapon.displayName},
where: 'weapon_id = ?',
whereArgs: [weapon.id],
);
return count;
});
}
Future<int> deleteWeapon(String id) async {
final db = await database;
return await db.transaction((txn) async {
// 1. Unlink sessions from this weapon but KEEP the name (gravé à jamais)
await txn.update(
AppConstants.sessionsTable,
{'weapon_id': null},
where: 'weapon_id = ?',
whereArgs: [id],
);
// 2. Delete the weapon record
return await txn.delete(
AppConstants.weaponsTable,
where: 'id = ?',
whereArgs: [id],
);
});
}
// Weapon statistics & Maintenance
Future<int> getRoundsFiredForWeapon(String weaponId) async {
final db = await database;
final result = await db.rawQuery('''
SELECT COUNT(s.id) as count
FROM ${AppConstants.shotsTable} s
JOIN ${AppConstants.targetAnalysesTable} ta ON s.analysis_id = ta.id
JOIN ${AppConstants.sessionsTable} sess ON ta.session_id = sess.id
WHERE sess.weapon_id = ?
''', [weaponId]);
return Sqflite.firstIntValue(result) ?? 0;
}
Future<int> insertMaintenance(MaintenanceEntry entry) async {
final db = await database;
return await db.insert(
AppConstants.maintenanceTable,
entry.toMap(),
conflictAlgorithm: ConflictAlgorithm.replace,
);
}
Future<List<MaintenanceEntry>> getMaintenanceForWeapon(String weaponId) async {
final db = await database;
final maps = await db.query(
AppConstants.maintenanceTable,
where: 'weapon_id = ?',
orderBy: 'date DESC',
whereArgs: [weaponId],
);
return List.generate(maps.length, (i) => MaintenanceEntry.fromMap(maps[i]));
}
Future<int> deleteMaintenance(String id) async {
final db = await database;
return await db.delete(
AppConstants.maintenanceTable,
where: 'id = ?',
whereArgs: [id],
);
}
Future<void> close() async {
final db = await database;
await db.close();

View File

@@ -0,0 +1,57 @@
enum MaintenanceType {
cleaning('Nettoyage'),
repair('Réparation'),
inspection('Inspection'),
upgrade('Amélioration'),
other('Autre');
final String displayName;
const MaintenanceType(this.displayName);
static MaintenanceType fromString(String value) {
return MaintenanceType.values.firstWhere(
(type) => type.name == value,
orElse: () => MaintenanceType.other,
);
}
}
class MaintenanceEntry {
final String id;
final String weaponId;
final MaintenanceType type;
final String description;
final DateTime date;
final int? roundsSinceLastMaintenance;
MaintenanceEntry({
required this.id,
required this.weaponId,
required this.type,
required this.description,
required this.date,
this.roundsSinceLastMaintenance,
});
Map<String, dynamic> toMap() {
return {
'id': id,
'weapon_id': weaponId,
'type': type.name,
'description': description,
'date': date.toIso8601String(),
'rounds_since_last': roundsSinceLastMaintenance,
};
}
factory MaintenanceEntry.fromMap(Map<String, dynamic> map) {
return MaintenanceEntry(
id: map['id'] as String,
weaponId: map['weapon_id'] as String,
type: MaintenanceType.fromString(map['type'] as String),
description: map['description'] as String,
date: DateTime.parse(map['date'] as String),
roundsSinceLastMaintenance: map['rounds_since_last'] as int?,
);
}
}

View File

@@ -1,112 +1,83 @@
import 'shot.dart';
import 'target_type.dart';
import 'target_analysis.dart';
class Session {
final String id;
final TargetType targetType;
final String imagePath;
final List<Shot> shots;
final int totalScore;
final double? groupingDiameter;
final double? groupingCenterX;
final double? groupingCenterY;
final String weapon;
final String? weaponId;
final int maxShotsPerTarget;
final List<TargetAnalysis> analyses;
final DateTime createdAt;
final String? notes;
// Target detection data
final double? targetCenterX;
final double? targetCenterY;
final double? targetRadius;
final int distance; // Shooting distance in meters
Session({
required this.id,
required this.targetType,
required this.imagePath,
required this.shots,
required this.totalScore,
this.groupingDiameter,
this.groupingCenterX,
this.groupingCenterY,
required this.weapon,
this.weaponId,
required this.maxShotsPerTarget,
required this.analyses,
required this.createdAt,
this.notes,
this.targetCenterX,
this.targetCenterY,
this.targetRadius,
this.distance = 25, // Default distance
});
int get shotCount => shots.length;
int get targetCount => analyses.length;
double get averageScore => shots.isEmpty ? 0.0 : totalScore / shots.length;
int get totalShots => analyses.fold(0, (sum, a) => sum + a.shotCount);
int get totalScore => analyses.fold(0, (sum, a) => sum + a.totalScore);
double get averageScore => analyses.isEmpty ? 0.0 : totalScore / analyses.length;
Session copyWith({
String? id,
TargetType? targetType,
String? imagePath,
List<Shot>? shots,
int? totalScore,
double? groupingDiameter,
double? groupingCenterX,
double? groupingCenterY,
String? weapon,
String? weaponId,
int? maxShotsPerTarget,
List<TargetAnalysis>? analyses,
DateTime? createdAt,
String? notes,
double? targetCenterX,
double? targetCenterY,
double? targetRadius,
int? distance,
}) {
return Session(
id: id ?? this.id,
targetType: targetType ?? this.targetType,
imagePath: imagePath ?? this.imagePath,
shots: shots ?? this.shots,
totalScore: totalScore ?? this.totalScore,
groupingDiameter: groupingDiameter ?? this.groupingDiameter,
groupingCenterX: groupingCenterX ?? this.groupingCenterX,
groupingCenterY: groupingCenterY ?? this.groupingCenterY,
weapon: weapon ?? this.weapon,
weaponId: weaponId ?? this.weaponId,
maxShotsPerTarget: maxShotsPerTarget ?? this.maxShotsPerTarget,
analyses: analyses ?? this.analyses,
createdAt: createdAt ?? this.createdAt,
notes: notes ?? this.notes,
targetCenterX: targetCenterX ?? this.targetCenterX,
targetCenterY: targetCenterY ?? this.targetCenterY,
targetRadius: targetRadius ?? this.targetRadius,
distance: distance ?? this.distance,
);
}
Map<String, dynamic> toMap() {
return {
'id': id,
'target_type': targetType.name,
'image_path': imagePath,
'total_score': totalScore,
'grouping_diameter': groupingDiameter,
'grouping_center_x': groupingCenterX,
'grouping_center_y': groupingCenterY,
'weapon': weapon,
'weapon_id': weaponId,
'max_shots_per_target': maxShotsPerTarget,
'created_at': createdAt.toIso8601String(),
'notes': notes,
'target_center_x': targetCenterX,
'target_center_y': targetCenterY,
'target_radius': targetRadius,
'distance': distance,
};
}
factory Session.fromMap(Map<String, dynamic> map, List<Shot> shots) {
factory Session.fromMap(Map<String, dynamic> map, List<TargetAnalysis> analyses) {
return Session(
id: map['id'] as String,
targetType: TargetType.fromString(map['target_type'] as String),
imagePath: map['image_path'] as String,
shots: shots,
totalScore: map['total_score'] as int,
groupingDiameter: map['grouping_diameter'] as double?,
groupingCenterX: map['grouping_center_x'] as double?,
groupingCenterY: map['grouping_center_y'] as double?,
weapon: map['weapon'] as String? ?? 'Inconnue',
weaponId: map['weapon_id'] as String?,
maxShotsPerTarget: map['max_shots_per_target'] as int? ?? 5,
analyses: analyses,
createdAt: DateTime.parse(map['created_at'] as String),
notes: map['notes'] as String?,
targetCenterX: map['target_center_x'] as double?,
targetCenterY: map['target_center_y'] as double?,
targetRadius: map['target_radius'] as double?,
distance: map['distance'] as int? ?? 25,
);
}
@override
String toString() {
return 'Session(id: $id, targetType: $targetType, shots: ${shots.length}, totalScore: $totalScore, createdAt: $createdAt)';
return 'Session(id: $id, weapon: $weapon, distance: ${distance}m, targets: ${analyses.length}, createdAt: $createdAt)';
}
}

View File

@@ -3,14 +3,14 @@ class Shot {
final double x; // Relative position (0.0 - 1.0)
final double y; // Relative position (0.0 - 1.0)
final int score;
final String sessionId;
final String analysisId;
Shot({
required this.id,
required this.x,
required this.y,
required this.score,
required this.sessionId,
required this.analysisId,
});
Shot copyWith({
@@ -18,14 +18,14 @@ class Shot {
double? x,
double? y,
int? score,
String? sessionId,
String? analysisId,
}) {
return Shot(
id: id ?? this.id,
x: x ?? this.x,
y: y ?? this.y,
score: score ?? this.score,
sessionId: sessionId ?? this.sessionId,
analysisId: analysisId ?? this.analysisId,
);
}
@@ -35,7 +35,7 @@ class Shot {
'x': x,
'y': y,
'score': score,
'session_id': sessionId,
'analysis_id': analysisId,
};
}
@@ -45,13 +45,13 @@ class Shot {
x: (map['x'] as num).toDouble(),
y: (map['y'] as num).toDouble(),
score: map['score'] as int,
sessionId: map['session_id'] as String,
analysisId: map['analysis_id'] as String? ?? map['session_id'] as String? ?? '',
);
}
@override
String toString() {
return 'Shot(id: $id, x: $x, y: $y, score: $score, sessionId: $sessionId)';
return 'Shot(id: $id, x: $x, y: $y, score: $score, analysisId: $analysisId)';
}
@override
@@ -62,11 +62,11 @@ class Shot {
other.x == x &&
other.y == y &&
other.score == score &&
other.sessionId == sessionId;
other.analysisId == analysisId;
}
@override
int get hashCode {
return id.hashCode ^ x.hashCode ^ y.hashCode ^ score.hashCode ^ sessionId.hashCode;
return id.hashCode ^ x.hashCode ^ y.hashCode ^ score.hashCode ^ analysisId.hashCode;
}
}

View File

@@ -0,0 +1,113 @@
import 'shot.dart';
import 'target_type.dart';
class TargetAnalysis {
final String id;
final String sessionId;
final TargetType targetType;
final String imagePath;
final List<Shot> shots;
final int totalScore;
final double? groupingDiameter;
final double? groupingCenterX;
final double? groupingCenterY;
final DateTime createdAt;
final String? notes;
// Target detection data
final double? targetCenterX;
final double? targetCenterY;
final double? targetRadius;
TargetAnalysis({
required this.id,
required this.sessionId,
required this.targetType,
required this.imagePath,
required this.shots,
required this.totalScore,
this.groupingDiameter,
this.groupingCenterX,
this.groupingCenterY,
required this.createdAt,
this.notes,
this.targetCenterX,
this.targetCenterY,
this.targetRadius,
});
int get shotCount => shots.length;
double get averageScore => shots.isEmpty ? 0.0 : totalScore / shots.length;
TargetAnalysis copyWith({
String? id,
String? sessionId,
TargetType? targetType,
String? imagePath,
List<Shot>? shots,
int? totalScore,
double? groupingDiameter,
double? groupingCenterX,
double? groupingCenterY,
DateTime? createdAt,
String? notes,
double? targetCenterX,
double? targetCenterY,
double? targetRadius,
}) {
return TargetAnalysis(
id: id ?? this.id,
sessionId: sessionId ?? this.sessionId,
targetType: targetType ?? this.targetType,
imagePath: imagePath ?? this.imagePath,
shots: shots ?? this.shots,
totalScore: totalScore ?? this.totalScore,
groupingDiameter: groupingDiameter ?? this.groupingDiameter,
groupingCenterX: groupingCenterX ?? this.groupingCenterX,
groupingCenterY: groupingCenterY ?? this.groupingCenterY,
createdAt: createdAt ?? this.createdAt,
notes: notes ?? this.notes,
targetCenterX: targetCenterX ?? this.targetCenterX,
targetCenterY: targetCenterY ?? this.targetCenterY,
targetRadius: targetRadius ?? this.targetRadius,
);
}
Map<String, dynamic> toMap() {
return {
'id': id,
'session_id': sessionId,
'target_type': targetType.name,
'image_path': imagePath,
'total_score': totalScore,
'grouping_diameter': groupingDiameter,
'grouping_center_x': groupingCenterX,
'grouping_center_y': groupingCenterY,
'created_at': createdAt.toIso8601String(),
'notes': notes,
'target_center_x': targetCenterX,
'target_center_y': targetCenterY,
'target_radius': targetRadius,
};
}
factory TargetAnalysis.fromMap(Map<String, dynamic> map, List<Shot> shots) {
return TargetAnalysis(
id: map['id'] as String,
sessionId: map['session_id'] as String,
targetType: TargetType.fromString(map['target_type'] as String),
imagePath: map['image_path'] as String,
shots: shots,
totalScore: map['total_score'] as int,
groupingDiameter: map['grouping_diameter'] as double?,
groupingCenterX: map['grouping_center_x'] as double?,
groupingCenterY: map['grouping_center_y'] as double?,
createdAt: DateTime.parse(map['created_at'] as String),
notes: map['notes'] as String?,
targetCenterX: map['target_center_x'] as double?,
targetCenterY: map['target_center_y'] as double?,
targetRadius: map['target_radius'] as double?,
);
}
}

114
lib/data/models/weapon.dart Normal file
View File

@@ -0,0 +1,114 @@
enum WeaponType {
handgun('Arme de Poing'),
rifle('Arme d\'Épaule'),
shotgun('Fusil à Pompe'),
airgun('Airsoft / Airgun');
final String displayName;
const WeaponType(this.displayName);
static WeaponType fromString(String value) {
return WeaponType.values.firstWhere(
(type) => type.name == value,
orElse: () => WeaponType.handgun,
);
}
}
class Weapon {
final String id;
final String name;
final WeaponType type;
final String caliber;
final int magazineCount;
final int magazineCapacity;
final String? notes;
final DateTime createdAt;
// New options
final String? optic;
final String? silencer;
final String? trigger;
final String? customName;
String get displayName => (customName != null && customName!.isNotEmpty) ? customName! : name;
Weapon({
required this.id,
required this.name,
required this.type,
required this.caliber,
required this.magazineCount,
required this.magazineCapacity,
this.notes,
required this.createdAt,
this.optic,
this.silencer,
this.trigger,
this.customName,
});
Weapon copyWith({
String? id,
String? name,
WeaponType? type,
String? caliber,
int? magazineCount,
int? magazineCapacity,
String? notes,
DateTime? createdAt,
String? optic,
String? silencer,
String? trigger,
String? customName,
}) {
return Weapon(
id: id ?? this.id,
name: name ?? this.name,
type: type ?? this.type,
caliber: caliber ?? this.caliber,
magazineCount: magazineCount ?? this.magazineCount,
magazineCapacity: magazineCapacity ?? this.magazineCapacity,
notes: notes ?? this.notes,
createdAt: createdAt ?? this.createdAt,
optic: optic ?? this.optic,
silencer: silencer ?? this.silencer,
trigger: trigger ?? this.trigger,
customName: customName ?? this.customName,
);
}
Map<String, dynamic> toMap() {
return {
'id': id,
'name': name,
'type': type.name,
'caliber': caliber,
'magazine_count': magazineCount,
'magazine_capacity': magazineCapacity,
'notes': notes,
'created_at': createdAt.toIso8601String(),
'optic': optic,
'silencer': silencer,
'trigger': trigger,
'custom_name': customName,
};
}
factory Weapon.fromMap(Map<String, dynamic> map) {
return Weapon(
id: map['id'] as String,
name: map['name'] as String,
type: WeaponType.fromString(map['type'] as String),
caliber: map['caliber'] as String,
magazineCount: map['magazine_count'] as int,
magazineCapacity: map['magazine_capacity'] as int,
notes: map['notes'] as String?,
createdAt: DateTime.parse(map['created_at'] as String),
optic: map['optic'] as String?,
silencer: map['silencer'] as String?,
trigger: map['trigger'] as String?,
customName: map['custom_name'] as String?,
);
}
}

View File

@@ -4,8 +4,10 @@ import 'package:path/path.dart' as path;
import 'package:uuid/uuid.dart';
import '../database/database_helper.dart';
import '../models/session.dart';
import '../models/target_analysis.dart';
import '../models/shot.dart';
import '../models/target_type.dart';
import '../models/weapon.dart';
import '../models/maintenance.dart';
class SessionRepository {
final DatabaseHelper _databaseHelper;
@@ -18,8 +20,38 @@ class SessionRepository {
_uuid = uuid ?? const Uuid();
Future<Session> createSession({
required TargetType targetType,
String? id,
required String weapon,
String? weaponId,
required int maxShotsPerTarget,
required List<TargetAnalysis> analyses,
String? notes,
int distance = 25,
DateTime? date,
}) async {
final session = Session(
id: id ?? _uuid.v4(),
weapon: weapon,
weaponId: weaponId,
maxShotsPerTarget: maxShotsPerTarget,
analyses: analyses,
createdAt: date ?? DateTime.now(),
notes: notes,
distance: distance,
);
await _databaseHelper.insertSession(session);
return session;
}
Future<void> addAnalysisToSession(String sessionId, TargetAnalysis analysis) async {
await _databaseHelper.insertTargetAnalysis(analysis, sessionId);
}
Future<TargetAnalysis> prepareTargetAnalysis({
required String imagePath,
required String sessionId,
required dynamic targetType, // TargetType
required List<Shot> shots,
required int totalScore,
double? groupingDiameter,
@@ -33,8 +65,9 @@ class SessionRepository {
// Copy image to app documents directory
final savedImagePath = await _saveImage(imagePath);
final session = Session(
return TargetAnalysis(
id: _uuid.v4(),
sessionId: sessionId,
targetType: targetType,
imagePath: savedImagePath,
shots: shots,
@@ -48,9 +81,6 @@ class SessionRepository {
targetCenterY: targetCenterY,
targetRadius: targetRadius,
);
await _databaseHelper.insertSession(session);
return session;
}
Future<String> _saveImage(String sourcePath) async {
@@ -75,28 +105,23 @@ class SessionRepository {
}
Future<List<Session>> getAllSessions({
TargetType? targetType,
int? limit,
int? offset,
}) async {
return await _databaseHelper.getAllSessions(
targetType: targetType?.name,
limit: limit,
offset: offset,
);
}
Future<void> updateSession(Session session) async {
await _databaseHelper.updateSession(session);
}
Future<void> deleteSession(String id) async {
final session = await getSession(id);
if (session != null) {
// Delete the image file
final imageFile = File(session.imagePath);
if (await imageFile.exists()) {
await imageFile.delete();
for (final analysis in session.analyses) {
final imageFile = File(analysis.imagePath);
if (await imageFile.exists()) {
await imageFile.delete();
}
}
}
await _databaseHelper.deleteSession(id);
@@ -106,7 +131,79 @@ class SessionRepository {
return await _databaseHelper.getStatistics();
}
String generateShotId() {
String generateId() {
return _uuid.v4();
}
// Weapon Repository methods
Future<Weapon> addWeapon({
required String name,
required WeaponType type,
required String caliber,
required int magazineCount,
required int magazineCapacity,
String? notes,
String? optic,
String? silencer,
String? trigger,
String? customName,
}) async {
final weapon = Weapon(
id: _uuid.v4(),
name: name,
type: type,
caliber: caliber,
magazineCount: magazineCount,
magazineCapacity: magazineCapacity,
notes: notes,
createdAt: DateTime.now(),
optic: optic,
silencer: silencer,
trigger: trigger,
customName: customName,
);
await _databaseHelper.insertWeapon(weapon);
return weapon;
}
Future<List<Weapon>> getWeapons() async {
return await _databaseHelper.getAllWeapons();
}
Future<void> updateWeapon(Weapon weapon) async {
await _databaseHelper.updateWeapon(weapon);
}
Future<void> deleteWeapon(String id) async {
await _databaseHelper.deleteWeapon(id);
}
Future<int> getRoundsFiredForWeapon(String weaponId) async {
return await _databaseHelper.getRoundsFiredForWeapon(weaponId);
}
Future<void> addMaintenanceEntry({
required String weaponId,
required MaintenanceType type,
required String description,
int? roundsSinceLast,
}) async {
final entry = MaintenanceEntry(
id: _uuid.v4(),
weaponId: weaponId,
type: type,
description: description,
date: DateTime.now(),
roundsSinceLastMaintenance: roundsSinceLast,
);
await _databaseHelper.insertMaintenance(entry);
}
Future<List<MaintenanceEntry>> getMaintenanceHistory(String weaponId) async {
return await _databaseHelper.getMaintenanceForWeapon(weaponId);
}
Future<void> deleteMaintenanceEntry(String id) async {
await _databaseHelper.deleteMaintenance(id);
}
}

View File

@@ -7,9 +7,9 @@ library;
import 'dart:io';
import 'dart:ui' as ui;
import 'package:flutter/foundation.dart';
import 'package:flutter/material.dart';
import 'package:uuid/uuid.dart';
import '../../data/models/session.dart';
import '../../data/models/target_analysis.dart';
import '../../data/models/shot.dart';
import '../../data/models/target_type.dart';
import '../../data/repositories/session_repository.dart';
@@ -39,17 +39,20 @@ class AnalysisProvider extends ChangeNotifier {
DistortionCorrectionService? distortionService,
OpenCVTargetService? opencvTargetService,
}) : _detectionService = detectionService,
_scoreCalculatorService = scoreCalculatorService,
_groupingAnalyzerService = groupingAnalyzerService,
_sessionRepository = sessionRepository,
_distortionService = distortionService ?? DistortionCorrectionService(),
_opencvTargetService = opencvTargetService ?? OpenCVTargetService();
_scoreCalculatorService = scoreCalculatorService,
_groupingAnalyzerService = groupingAnalyzerService,
_sessionRepository = sessionRepository,
_distortionService = distortionService ?? DistortionCorrectionService(),
_opencvTargetService = opencvTargetService ?? OpenCVTargetService();
AnalysisState _state = AnalysisState.initial;
String? _errorMessage;
String? _imagePath;
TargetType? _targetType;
// AJOUT PROTECTION DU PLOTTING : Stockage permanent de la rotation du Crop
double _cropRotation = 0.0;
// Target detection results
double _targetCenterX = 0.5;
double _targetCenterY = 0.5;
@@ -82,6 +85,7 @@ class AnalysisProvider extends ChangeNotifier {
String? get errorMessage => _errorMessage;
String? get imagePath => _imagePath;
TargetType? get targetType => _targetType;
double get cropRotation => _cropRotation; // Getter pour le Plotting
double get targetCenterX => _targetCenterX;
double get targetCenterY => _targetCenterY;
double get targetRadius => _targetRadius;
@@ -109,18 +113,25 @@ class AnalysisProvider extends ChangeNotifier {
/// Retourne le chemin de l'image à afficher (corrigée si activée, originale sinon)
String? get displayImagePath =>
_distortionCorrectionEnabled && _correctedImagePath != null
? _correctedImagePath
: _imagePath;
? _correctedImagePath
: _imagePath;
/// Modifie et mémorise la rotation de l'image pour le Plotting
void setCropRotation(double rotation) {
_cropRotation = rotation;
notifyListeners();
}
/// Analyze an image
///
/// [autoAnalyze] determines if we should run automatic detection immediately.
/// If false, only the image is loaded and default target parameters are set.
Future<void> analyzeImage(
String imagePath,
TargetType targetType, {
bool autoAnalyze = true,
}) async {
String imagePath,
TargetType targetType, {
bool autoAnalyze = true,
Offset? manualCenter,
}) async {
_state = AnalysisState.loading;
_imagePath = imagePath;
_targetType = targetType;
@@ -138,8 +149,8 @@ class AnalysisProvider extends ChangeNotifier {
if (!autoAnalyze) {
// Just setup default values without running detection
_targetCenterX = 0.5;
_targetCenterY = 0.5;
_targetCenterX = manualCenter?.dx ?? 0.5;
_targetCenterY = manualCenter?.dy ?? 0.5;
_targetRadius = 0.4;
_targetInnerRadius = 0.04;
@@ -151,8 +162,10 @@ class AnalysisProvider extends ChangeNotifier {
return;
}
// Detect target and impacts
final result = _detectionService.detectTarget(imagePath, targetType);
final result = await _detectionService.detectTargetAsync(
imagePath,
targetType,
);
if (!result.success) {
_state = AnalysisState.error;
@@ -173,7 +186,7 @@ class AnalysisProvider extends ChangeNotifier {
x: impact.x,
y: impact.y,
score: impact.suggestedScore,
sessionId: '', // Will be set when saving
analysisId: '',
);
}).toList();
@@ -195,7 +208,7 @@ class AnalysisProvider extends ChangeNotifier {
/// Add a manual shot
void addShot(double x, double y) {
final score = _calculateShotScore(x, y);
final shot = Shot(id: _uuid.v4(), x: x, y: y, score: score, sessionId: '');
final shot = Shot(id: _uuid.v4(), x: x, y: y, score: score, analysisId: '');
_shots.add(shot);
_recalculateScores();
@@ -275,7 +288,7 @@ class AnalysisProvider extends ChangeNotifier {
x: impact.x,
y: impact.y,
score: score,
sessionId: '',
analysisId: '',
);
_shots.add(shot);
}
@@ -288,14 +301,6 @@ class AnalysisProvider extends ChangeNotifier {
}
/// Auto-detect impacts using OpenCV (Hough Circles + Contours)
///
/// NOTE: OpenCV est actuellement désactivé sur Windows en raison de problèmes
/// de compilation. Cette méthode retourne 0 (aucun impact détecté).
/// Utiliser autoDetectImpacts() à la place.
///
/// Utilise les algorithmes OpenCV pour une détection plus robuste:
/// - Transformation de Hough pour détecter les cercles
/// - Analyse de contours avec filtrage par circularité
Future<int> autoDetectImpactsWithOpenCV({
double cannyThreshold1 = 50,
double cannyThreshold2 = 150,
@@ -352,7 +357,7 @@ class AnalysisProvider extends ChangeNotifier {
x: impact.x,
y: impact.y,
score: score,
sessionId: '',
analysisId: '',
);
_shots.add(shot);
}
@@ -382,15 +387,15 @@ class AnalysisProvider extends ChangeNotifier {
final detectedImpacts = _detectionService
.detectImpactsWithOpenCVFromReferences(
_imagePath!,
_targetType!,
_targetCenterX,
_targetCenterY,
_targetRadius,
_ringCount,
references,
tolerance: tolerance,
);
_imagePath!,
_targetType!,
_targetCenterX,
_targetCenterY,
_targetRadius,
_ringCount,
references,
tolerance: tolerance,
);
if (clearExisting) {
_shots.clear();
@@ -404,7 +409,7 @@ class AnalysisProvider extends ChangeNotifier {
x: impact.x,
y: impact.y,
score: score,
sessionId: '',
analysisId: '',
);
_shots.add(shot);
}
@@ -419,7 +424,7 @@ class AnalysisProvider extends ChangeNotifier {
/// Add a reference impact for calibrated detection
void addReferenceImpact(double x, double y) {
final score = _calculateShotScore(x, y);
final shot = Shot(id: _uuid.v4(), x: x, y: y, score: score, sessionId: '');
final shot = Shot(id: _uuid.v4(), x: x, y: y, score: score, analysisId: '');
_referenceImpacts.add(shot);
notifyListeners();
}
@@ -489,7 +494,7 @@ class AnalysisProvider extends ChangeNotifier {
x: impact.x,
y: impact.y,
score: score,
sessionId: '',
analysisId: '',
);
_shots.add(shot);
}
@@ -503,23 +508,26 @@ class AnalysisProvider extends ChangeNotifier {
/// Adjust target position
void adjustTargetPosition(
double centerX,
double centerY,
double innerRadius,
double radius, {
int? ringCount,
List<double>? ringRadii,
}) {
_targetCenterX = centerX;
_targetCenterY = centerY;
_targetInnerRadius = innerRadius;
_targetRadius = radius;
double centerX,
double centerY,
double innerRadius,
double radius, {
int? ringCount,
List<double>? ringRadii,
double zoomScale = 1.0,
Offset offset = Offset.zero,
}) {
_targetCenterX = (centerX - offset.dx) / zoomScale;
_targetCenterY = (centerY - offset.dy) / zoomScale;
_targetRadius = radius / zoomScale;
_targetInnerRadius = innerRadius / zoomScale;
if (ringCount != null) {
_ringCount = ringCount;
}
if (ringRadii != null) {
_ringRadii = ringRadii;
}
// CORRECTION : On accepte désormais la valeur null pour pouvoir réinitialiser l'espacement !
_ringRadii = ringRadii;
// Recalculate all shot scores based on new target position
_shots = _shots.map((shot) {
@@ -544,8 +552,7 @@ class AnalysisProvider extends ChangeNotifier {
_imagePath = correctedPath;
_correctedImagePath = correctedPath;
_distortionCorrectionEnabled = true;
_imageAspectRatio =
1.0; // The corrected image is always square (side x side)
_imageAspectRatio = 1.0;
notifyListeners();
}
@@ -563,7 +570,7 @@ class AnalysisProvider extends ChangeNotifier {
}
return false;
} catch (e) {
print('Auto-calibration error: $e');
debugPrint('Auto-calibration error: $e');
return false;
}
}
@@ -608,7 +615,6 @@ class AnalysisProvider extends ChangeNotifier {
}
}
/* version deux a tester*/
/// Calcule ET applique la correction pour un feedback immédiat
Future<void> calculateAndApplyDistortion() async {
// 1. Calcul des paramètres (votre code actuel)
@@ -624,18 +630,18 @@ class AnalysisProvider extends ChangeNotifier {
// 3. Application immédiate de la transformation (méthode asynchrone)
await applyDistortionCorrection();
} else {
notifyListeners(); // On prévient quand même si pas de correction
notifyListeners();
}
}
Future<void> runFullDistortionWorkflow() async {
_state = AnalysisState.loading; // Affiche un spinner sur votre UI
_state = AnalysisState.loading;
notifyListeners();
try {
calculateDistortion(); // Calcule les paramètres
await applyDistortionCorrection(); // Génère le fichier corrigé
_distortionCorrectionEnabled = true; // Active l'affichage
calculateDistortion();
await applyDistortionCorrection();
_distortionCorrectionEnabled = true;
_state = AnalysisState.success;
} catch (e) {
_errorMessage = "Erreur de rendu : $e";
@@ -644,7 +650,6 @@ class AnalysisProvider extends ChangeNotifier {
notifyListeners();
}
}
/* fin section deux a tester*/
int _calculateShotScore(double x, double y) {
if (_targetType == TargetType.concentric) {
@@ -692,24 +697,19 @@ class AnalysisProvider extends ChangeNotifier {
/// Exporte l'image et le json vers le backend IA
Future<bool> exportToAiBackend() async {
if (_imagePath == null || _targetType == null) {
_errorMessage = "Impossible d'exporter : image ou type de cible manquant.";
_errorMessage = "Impossible d'export : image ou type de cible manquant.";
notifyListeners();
return false;
}
// Identifiant de session temporaire si non sauvegardée
final sessionId = _shots.isNotEmpty && _shots.first.sessionId.isNotEmpty
? _shots.first.sessionId
: 'session_${DateTime.now().millisecondsSinceEpoch}';
final service = AiExportService(); // Local instanciation for simplicity
final service = AiExportService();
_state = AnalysisState.loading;
notifyListeners();
final success = await service.exportData(
imagePath: _imagePath!,
sessionId: sessionId,
sessionId: 'export',
targetType: _targetType!,
targetCenterX: _targetCenterX,
targetCenterY: _targetCenterY,
@@ -726,15 +726,23 @@ class AnalysisProvider extends ChangeNotifier {
}
/// Save the session
Future<Session> saveSession({String? notes}) async {
Future<TargetAnalysis> saveSession({
String? notes,
String? sessionId,
String? weaponName,
String? weaponId,
int? distance,
DateTime? date,
}) async {
if (_imagePath == null || _targetType == null) {
throw Exception('Cannot save: missing image or target type');
}
final session = await _sessionRepository.createSession(
targetType: _targetType!,
final targetAnalysis = await _sessionRepository.prepareTargetAnalysis(
imagePath: _imagePath!,
shots: _shots.map((s) => s.copyWith(sessionId: '')).toList(),
sessionId: sessionId ?? 'standalone',
targetType: _targetType!,
shots: _shots,
totalScore: totalScore,
groupingDiameter: _groupingResult?.diameter,
groupingCenterX: _groupingResult?.centerX,
@@ -745,11 +753,41 @@ class AnalysisProvider extends ChangeNotifier {
targetRadius: _targetRadius,
);
// Update shots with session ID
_shots = session.shots;
notifyListeners();
if (sessionId != null && sessionId != 'standalone') {
final existingSession = await _sessionRepository.getSession(sessionId);
if (existingSession != null) {
await _sessionRepository.addAnalysisToSession(
sessionId,
targetAnalysis,
);
} else {
// CORRECTION : Utilise la date injectée plutôt que DateTime.now()
await _sessionRepository.createSession(
id: sessionId,
weapon: weaponName ?? 'Inconnue',
weaponId: weaponId,
maxShotsPerTarget: shotCount,
analyses: [targetAnalysis],
notes: notes,
distance: distance ?? 25,
date: date ?? DateTime.now(),
);
}
} else {
// CORRECTION : S'applique aussi au flux alternatif sans ID préalable
await _sessionRepository.createSession(
weapon: weaponName ?? 'Inconnue',
weaponId: weaponId,
maxShotsPerTarget: shotCount,
analyses: [targetAnalysis],
notes: notes,
distance: distance ?? 25,
date: date ?? DateTime.now(),
);
}
return session;
notifyListeners();
return targetAnalysis;
}
/// Reset the provider
@@ -758,6 +796,7 @@ class AnalysisProvider extends ChangeNotifier {
_errorMessage = null;
_imagePath = null;
_targetType = null;
_cropRotation = 0.0;
_targetCenterX = 0.5;
_targetCenterY = 0.5;
_targetRadius = 0.4;
@@ -775,4 +814,23 @@ class AnalysisProvider extends ChangeNotifier {
_correctedImagePath = null;
notifyListeners();
}
/// Met à jour la position d'un impact de tir en direct (Glisser-Déposer).
void updateShotPosition(String shotId, double newX, double newY) {
final index = _shots.indexWhere((s) => s.id == shotId);
if (index != -1) {
// 1. On calcule dynamiquement le nouveau score de la zone survolée
final newScore = _calculateShotScore(newX, newY);
// 2. On remplace l'ancien impact par le nouveau avec ses coordonnées et son score ajustés
_shots[index] = _shots[index].copyWith(x: newX, y: newY, score: newScore);
// 3. On applique les deux méthodes natives de recalcul de ton application
_recalculateScores();
_recalculateGrouping();
// 4. On demande à l'écran de se redessiner en direct
notifyListeners();
}
}
}

File diff suppressed because it is too large Load Diff

View File

@@ -18,13 +18,13 @@ class TargetCalibration extends StatefulWidget {
final TargetType targetType;
final List<double>? initialRingRadii;
final Function(
double centerX,
double centerY,
double innerRadius,
double radius,
int ringCount, {
List<double>? ringRadii,
})
double centerX,
double centerY,
double innerRadius,
double radius,
int ringCount, {
List<double>? ringRadii,
})
onCalibrationChanged;
const TargetCalibration({
@@ -40,10 +40,10 @@ class TargetCalibration extends StatefulWidget {
});
@override
State<TargetCalibration> createState() => _TargetCalibrationState();
State<TargetCalibration> createState() => TargetCalibrationState();
}
class _TargetCalibrationState extends State<TargetCalibration> {
class TargetCalibrationState extends State<TargetCalibration> {
late double _centerX;
late double _centerY;
late double _radius;
@@ -51,10 +51,19 @@ class _TargetCalibrationState extends State<TargetCalibration> {
late int _ringCount;
late List<double> _ringRadii;
// Variable dédiée pour piloter la jauge orange sans conflit
late double _currentEspacementRatio;
bool _isDraggingCenter = false;
bool _isDraggingRadius = false;
bool _isDraggingInnerRadius = false;
bool _showEspacement = false;
double _baseRadiusBeforeScale = 1.0;
// SAUVEGARDE CRITIQUE : Pour mémoriser la structure d'origine de l'IA
List<double>? _originalRingRadii;
@override
void initState() {
super.initState();
@@ -63,19 +72,27 @@ class _TargetCalibrationState extends State<TargetCalibration> {
_radius = widget.initialRadius;
_innerRadius = widget.initialInnerRadius;
_ringCount = widget.initialRingCount;
// On mémorise la configuration d'usine de l'image
if (widget.initialRingRadii != null) {
_originalRingRadii = List.from(widget.initialRingRadii!);
}
// Initialisation du ratio par défaut
_currentEspacementRatio = (_radius > 0) ? (_innerRadius / _radius).clamp(0.01, 0.70) : 0.1;
_initRingRadii();
}
void _initRingRadii() {
if (widget.initialRingRadii != null &&
widget.initialRingRadii!.length == _ringCount) {
void _initRingRadii({bool forceRecalculate = false}) {
// CORRECTION : Si on ne recalcule pas activement l'espacement linéaire, on préserve en priorité la structure d'origine
if (!forceRecalculate && _originalRingRadii != null && _originalRingRadii!.length == _ringCount) {
_ringRadii = List.from(_originalRingRadii!);
} else if (!forceRecalculate && widget.initialRingRadii != null && widget.initialRingRadii!.length == _ringCount) {
_ringRadii = List.from(widget.initialRingRadii!);
} else {
// Initialize with default proportional radii interpolated between inner and outer
_ringRadii = List.generate(_ringCount, (i) {
if (_ringCount <= 1) return 1.0;
final ratio = _innerRadius / _radius;
return ratio + (1.0 - ratio) * i / (_ringCount - 1);
return _currentEspacementRatio + (1.0 - _currentEspacementRatio) * i / (_ringCount - 1);
});
}
}
@@ -85,12 +102,10 @@ class _TargetCalibrationState extends State<TargetCalibration> {
super.didUpdateWidget(oldWidget);
bool shouldReinit = false;
if (widget.initialCenterX != oldWidget.initialCenterX &&
!_isDraggingCenter) {
if (widget.initialCenterX != oldWidget.initialCenterX && !_isDraggingCenter) {
_centerX = widget.initialCenterX;
}
if (widget.initialCenterY != oldWidget.initialCenterY &&
!_isDraggingCenter) {
if (widget.initialCenterY != oldWidget.initialCenterY && !_isDraggingCenter) {
_centerY = widget.initialCenterY;
}
if (widget.initialRingCount != oldWidget.initialRingCount) {
@@ -101,12 +116,13 @@ class _TargetCalibrationState extends State<TargetCalibration> {
_radius = widget.initialRadius;
shouldReinit = true;
}
if (widget.initialInnerRadius != oldWidget.initialInnerRadius &&
!_isDraggingInnerRadius) {
if (widget.initialInnerRadius != oldWidget.initialInnerRadius && !_isDraggingInnerRadius) {
_innerRadius = widget.initialInnerRadius;
_currentEspacementRatio = (_radius > 0) ? (_innerRadius / _radius).clamp(0.01, 0.70) : 0.1;
shouldReinit = true;
}
if (widget.initialRingRadii != oldWidget.initialRingRadii) {
if (widget.initialRingRadii != oldWidget.initialRingRadii && widget.initialRingRadii != null) {
_originalRingRadii = List.from(widget.initialRingRadii!);
shouldReinit = true;
}
@@ -121,107 +137,229 @@ class _TargetCalibrationState extends State<TargetCalibration> {
builder: (context, constraints) {
final size = constraints.biggest;
return GestureDetector(
onPanStart: (details) => _onPanStart(details, size),
onPanUpdate: (details) => _onPanUpdate(details, size),
onPanEnd: (_) => _onPanEnd(),
child: CustomPaint(
size: size,
painter: _CalibrationPainter(
centerX: _centerX,
centerY: _centerY,
radius: _radius,
innerRadius: _innerRadius,
ringCount: _ringCount,
ringRadii: _ringRadii,
targetType: widget.targetType,
isDraggingCenter: _isDraggingCenter,
isDraggingRadius: _isDraggingRadius,
isDraggingInnerRadius: _isDraggingInnerRadius,
return Stack(
children: [
GestureDetector(
onScaleStart: (details) {
_baseRadiusBeforeScale = _radius;
final tapX = details.localFocalPoint.dx / size.width;
final tapY = details.localFocalPoint.dy / size.height;
final distToCenter = _distance(tapX, tapY, _centerX, _centerY);
if (distToCenter < 0.05 || distToCenter < _radius + 0.02) {
setState(() {
_isDraggingCenter = true;
});
}
},
onScaleUpdate: (details) => _onScaleUpdate(details, size),
onScaleEnd: (_) => _onScaleEnd(),
child: CustomPaint(
size: size,
painter: _CalibrationPainter(
centerX: _centerX,
centerY: _centerY,
radius: _radius,
innerRadius: _innerRadius,
ringCount: _ringCount,
ringRadii: _ringRadii,
targetType: widget.targetType,
isDraggingCenter: _isDraggingCenter,
isDraggingRadius: false,
isDraggingInnerRadius: false,
),
),
),
),
Positioned(
top: 10,
left: 40,
right: 40,
child: Column(
mainAxisSize: MainAxisSize.min,
children: [
Container(
margin: const EdgeInsets.only(bottom: 8),
padding: const EdgeInsets.symmetric(horizontal: 16, vertical: 2),
decoration: BoxDecoration(
color: Colors.black54,
borderRadius: BorderRadius.circular(20),
),
child: Row(
mainAxisAlignment: MainAxisAlignment.spaceBetween,
children: [
const Text(
'Options d\'espacement avancées',
style: TextStyle(color: Colors.white70, fontSize: 11, fontWeight: FontWeight.w500),
),
SizedBox(
height: 28,
child: Switch(
value: _showEspacement,
activeThumbColor: const Color(0xFF00FF00),
onChanged: (bool value) {
setState(() {
_showEspacement = value;
// Quand on désactive l'espacement manuel, on restaure la configuration d'usine !
if (!value) {
_initRingRadii(forceRecalculate: false);
}
});
_notifyChange();
},
),
),
],
),
),
// Slider pour la taille (toujours visible)
Container(
padding: const EdgeInsets.symmetric(horizontal: 16, vertical: 4),
decoration: BoxDecoration(
color: Colors.black54,
borderRadius: BorderRadius.circular(20),
),
child: Row(
children: [
const Text('Taille ', style: TextStyle(color: Colors.white, fontSize: 12, fontWeight: FontWeight.bold)),
const Icon(Icons.zoom_out, color: Colors.white, size: 16),
Expanded(
child: Slider(
// SÉCURITÉ : Ouverture mesurée des bornes pour plus de liberté sans débordement incontrôlé
value: _radius.clamp(0.3, 0.95),
min: 0.3,
max: 0.95,
activeColor: AppTheme.primaryColor,
onChanged: (value) {
setState(() {
_radius = value;
_innerRadius = _radius * _currentEspacementRatio;
// CORRECTION : Si le mode avancé n'est pas coché, on applique la taille pure sans détruire le ratio d'origine
_initRingRadii(forceRecalculate: _showEspacement);
});
_notifyChange();
},
),
),
const Icon(Icons.zoom_in, color: Colors.white, size: 16),
],
),
),
// Affichage conditionnel du slider d'espacement orange
if (_showEspacement) ...[
const SizedBox(height: 8),
Container(
padding: const EdgeInsets.fromLTRB(16, 4, 4, 4),
decoration: BoxDecoration(
color: Colors.black54,
borderRadius: BorderRadius.circular(20),
),
child: Row(
children: [
const Text('Espacement ', style: TextStyle(color: Colors.white, fontSize: 12, fontWeight: FontWeight.bold)),
const Icon(Icons.compress, color: Colors.white, size: 16),
Expanded(
child: Row(
children: [
Expanded(
child: Slider(
value: _currentEspacementRatio,
min: 0.01,
// SÉCURITÉ : Écartement max bridé à 0.70 pour confiner le dernier cercle
max: 0.70,
activeColor: Colors.orange,
onChanged: (value) {
setState(() {
_currentEspacementRatio = value;
_innerRadius = _radius * _currentEspacementRatio;
_initRingRadii(forceRecalculate: true);
});
_notifyChange();
},
),
),
const Icon(Icons.expand, color: Colors.white, size: 16),
],
),
),
// CORRECTION DU BOUTON RESET : Restaure désormais le vrai profil d'usine de l'IA
IconButton(
icon: const Icon(Icons.refresh, color: Colors.white70, size: 20),
onPressed: () {
setState(() {
if (_originalRingRadii != null) {
_initRingRadii(forceRecalculate: false);
if (_ringRadii.isNotEmpty) {
_currentEspacementRatio = _ringRadii.first;
_innerRadius = _radius * _currentEspacementRatio;
}
} else {
_currentEspacementRatio = 0.1;
_innerRadius = _radius * _currentEspacementRatio;
_initRingRadii(forceRecalculate: true);
}
});
_notifyChange();
},
tooltip: 'Réinitialiser l\'espacement',
constraints: const BoxConstraints(),
padding: const EdgeInsets.symmetric(horizontal: 8),
),
],
),
),
],
],
),
),
],
);
},
);
}
void _onPanStart(DragStartDetails details, Size size) {
final tapX = details.localPosition.dx / size.width;
final tapY = details.localPosition.dy / size.height;
// Check if tapping on center handle
final distToCenter = _distance(tapX, tapY, _centerX, _centerY);
// Check if tapping on outer radius handle
final minDim = math.min(size.width, size.height);
final outerRadius = _radius;
final radiusHandleX = _centerX + outerRadius * minDim / size.width;
final radiusHandleY = _centerY;
final distToOuterHandle = _distance(
tapX,
tapY,
radiusHandleX.clamp(0.0, 1.0),
radiusHandleY.clamp(0.0, 1.0),
Widget buildDirectionalControls(BuildContext context, Size size) {
return Container(
padding: const EdgeInsets.all(8),
decoration: BoxDecoration(
color: Colors.black.withValues(alpha: 0.05),
borderRadius: BorderRadius.circular(12),
border: Border.all(color: Colors.white10),
),
child: Column(
mainAxisSize: MainAxisSize.min,
children: [
_buildDirectionButton(Icons.keyboard_arrow_up, () => _moveCenterByPixels(0, -1, size)),
Row(
mainAxisSize: MainAxisSize.min,
children: [
_buildDirectionButton(Icons.keyboard_arrow_left, () => _moveCenterByPixels(-1, 0, size)),
const SizedBox(width: 40),
_buildDirectionButton(Icons.keyboard_arrow_right, () => _moveCenterByPixels(1, 0, size)),
],
),
_buildDirectionButton(Icons.keyboard_arrow_down, () => _moveCenterByPixels(0, 1, size)),
],
),
);
// Check if tapping on inner radius handle (top edge of innermost circle)
final actualInnerRadius = _innerRadius;
final innerHandleX = _centerX;
final innerHandleY = _centerY - actualInnerRadius * minDim / size.height;
final distToInnerHandle = _distance(
tapX,
tapY,
innerHandleX.clamp(0.0, 1.0),
innerHandleY.clamp(0.0, 1.0),
);
// Increase touch target size slightly for handles
if (distToCenter < 0.05) {
setState(() {
_isDraggingCenter = true;
});
} else if (distToOuterHandle < 0.05) {
setState(() {
_isDraggingRadius = true;
});
} else if (distToInnerHandle < 0.05) {
setState(() {
_isDraggingInnerRadius = true;
});
} else if (distToCenter < _radius + 0.02) {
// Tapping inside the target - move center
setState(() {
_isDraggingCenter = true;
});
}
}
void _onPanUpdate(DragUpdateDetails details, Size size) {
final deltaX = details.delta.dx / size.width;
final deltaY = details.delta.dy / size.height;
final minDim = math.min(size.width, size.height);
setState(() {
if (_isDraggingCenter) {
// Move center
_centerX = _centerX + deltaX;
_centerY = _centerY + deltaY;
} else if (_isDraggingRadius) {
// Adjust outer radius
final newRadius = _radius + deltaX * (size.width / minDim);
_radius = newRadius.clamp(math.max(0.05, _innerRadius + 0.01), 3.0);
_initRingRadii(); // Recalculate linear separation
} else if (_isDraggingInnerRadius) {
// Adjust inner radius (sliding up reduces Y, so deltaY is negative when growing. Thus we subtract deltaY)
final newInnerRadius = _innerRadius - deltaY * (size.height / minDim);
_innerRadius = newInnerRadius.clamp(
0.01,
math.max(0.01, _radius - 0.01),
);
_initRingRadii(); // Recalculate linear separation
}
});
Widget _buildDirectionButton(IconData icon, VoidCallback onPressed) {
return Container(
decoration: BoxDecoration(color: Colors.black87, borderRadius: BorderRadius.circular(8)),
margin: const EdgeInsets.all(2),
child: IconButton(
icon: Icon(icon, color: Colors.white, size: 28),
onPressed: onPressed,
padding: EdgeInsets.zero,
constraints: const BoxConstraints(minWidth: 40, minHeight: 40),
),
);
}
void _notifyChange() {
widget.onCalibrationChanged(
_centerX,
_centerY,
@@ -232,7 +370,31 @@ class _TargetCalibrationState extends State<TargetCalibration> {
);
}
void _onPanEnd() {
void _moveCenterByPixels(double dx, double dy, Size size) {
setState(() {
_centerX = _centerX + (dx / size.width);
_centerY = _centerY + (dy / size.height);
});
_notifyChange();
}
void _onScaleUpdate(ScaleUpdateDetails details, Size size) {
setState(() {
if (details.pointerCount == 2) {
_radius = (_baseRadiusBeforeScale * details.scale).clamp(0.3, 0.95);
_innerRadius = _radius * _currentEspacementRatio;
_initRingRadii(forceRecalculate: _showEspacement);
} else if (_isDraggingCenter) {
final deltaX = details.focalPointDelta.dx / size.width;
final deltaY = details.focalPointDelta.dy / size.height;
_centerX = _centerX + deltaX;
_centerY = _centerY + deltaY;
}
});
_notifyChange();
}
void _onScaleEnd() {
setState(() {
_isDraggingCenter = false;
_isDraggingRadius = false;
@@ -277,7 +439,6 @@ class _CalibrationPainter extends CustomPainter {
final centerPx = Offset(centerX * size.width, centerY * size.height);
final minDim = size.width < size.height ? size.width : size.height;
final baseRadiusPx = radius * minDim;
final innerRadiusPx = innerRadius * minDim;
if (targetType == TargetType.concentric) {
_drawConcentricZones(canvas, size, centerPx, baseRadiusPx);
@@ -285,43 +446,17 @@ class _CalibrationPainter extends CustomPainter {
_drawSilhouetteZones(canvas, size, centerPx, baseRadiusPx);
}
// Fullscreen crosshairs when dragging center
if (isDraggingCenter) {
final crosshairLinePaint = Paint()
..color = AppTheme.successColor.withValues(alpha: 0.5)
..strokeWidth = 1;
canvas.drawLine(
Offset(0, centerPx.dy),
Offset(size.width, centerPx.dy),
crosshairLinePaint,
);
canvas.drawLine(
Offset(centerPx.dx, 0),
Offset(centerPx.dx, size.height),
crosshairLinePaint,
);
final crosshairLinePaint = Paint()..color = Colors.red.withValues(alpha: 0.5)..strokeWidth = 1;
canvas.drawLine(Offset(0, centerPx.dy), Offset(size.width, centerPx.dy), crosshairLinePaint);
canvas.drawLine(Offset(centerPx.dx, 0), Offset(centerPx.dx, size.height), crosshairLinePaint);
}
// Draw center handle
_drawCenterHandle(canvas, centerPx);
// Draw radius handle (for outer ring)
_drawRadiusHandle(canvas, size, centerPx, baseRadiusPx);
// Draw inner radius handle
_drawInnerRadiusHandle(canvas, size, centerPx, innerRadiusPx);
// Draw instructions
_drawInstructions(canvas, size);
}
void _drawConcentricZones(
Canvas canvas,
Size size,
Offset center,
double baseRadius,
) {
// Generate colors for zones
void _drawConcentricZones(Canvas canvas, Size size, Offset center, double baseRadius) {
List<Color> zoneColors = [];
for (int i = 0; i < ringCount; i++) {
final ratio = i / ringCount;
@@ -342,13 +477,10 @@ class _CalibrationPainter extends CustomPainter {
final strokePaint = Paint()
..style = PaintingStyle.stroke
..strokeWidth = 1
..color = Colors.white.withValues(alpha: 0.6);
..color = Colors.red.withValues(alpha: 0.8);
// Draw from outside to inside
for (int i = ringCount - 1; i >= 0; i--) {
final ringRadius = ringRadii.length > i
? ringRadii[i]
: (i + 1) / ringCount;
final ringRadius = ringRadii.length > i ? ringRadii[i] : (i + 1) / ringCount;
final zoneRadius = baseRadius * ringRadius;
zonePaint.color = zoneColors[i];
@@ -356,22 +488,14 @@ class _CalibrationPainter extends CustomPainter {
canvas.drawCircle(center, zoneRadius, strokePaint);
}
// Draw zone labels (only if within visible area)
final textPainter = TextPainter(textDirection: TextDirection.ltr);
for (int i = 0; i < ringCount; i++) {
final ringRadius = ringRadii.length > i
? ringRadii[i]
: (i + 1) / ringCount;
final prevRingRadius = i > 0
? (ringRadii.length > i - 1 ? ringRadii[i - 1] : i / ringCount)
: 0.0;
final zoneRadius = baseRadius * (ringRadius + prevRingRadius) / 2;
final ringRadius = ringRadii.length > i ? ringRadii[i] : (i + 1) / ringCount;
final textSpanRatio = i > 0 ? (ringRadii.length > i - 1 ? ringRadii[i - 1] : i / ringCount) : 0.0;
final zoneRadius = baseRadius * (ringRadius + textSpanRatio) / 2;
// Score: center = 10, decrement by 1 for each ring
final score = 10 - i;
// Only draw label if it's within the visible area
final labelX = center.dx + zoneRadius;
if (labelX < 0 || labelX > size.width) continue;
@@ -386,251 +510,49 @@ class _CalibrationPainter extends CustomPainter {
);
textPainter.layout();
// Draw label on the right side of each zone
final labelY = center.dy - textPainter.height / 2;
if (labelY >= 0 && labelY <= size.height) {
textPainter.paint(
canvas,
Offset(labelX - textPainter.width / 2, labelY),
);
textPainter.paint(canvas, Offset(labelX - textPainter.width / 2, labelY));
}
}
}
void _drawSilhouetteZones(
Canvas canvas,
Size size,
Offset center,
double radius,
) {
// Simplified silhouette zones
final paint = Paint()
..style = PaintingStyle.stroke
..strokeWidth = 2;
// Draw silhouette outline (simplified as rectangle for now)
void _drawSilhouetteZones(Canvas canvas, Size size, Offset center, double radius) {
final paint = Paint()..style = PaintingStyle.stroke..strokeWidth = 2;
final silhouetteWidth = radius * 0.8;
final silhouetteHeight = radius * 2;
paint.color = Colors.green.withValues(alpha: 0.5);
canvas.drawRect(
Rect.fromCenter(
center: center,
width: silhouetteWidth,
height: silhouetteHeight,
),
paint,
);
canvas.drawRect(Rect.fromCenter(center: center, width: silhouetteWidth, height: silhouetteHeight), paint);
}
void _drawCenterHandle(Canvas canvas, Offset center) {
// Outer circle
final outerPaint = Paint()
..color = isDraggingCenter ? AppTheme.successColor : AppTheme.primaryColor
..style = PaintingStyle.stroke
..strokeWidth = 3;
final outerPaint = Paint()..color = isDraggingCenter ? Colors.redAccent : Colors.red..style = PaintingStyle.stroke..strokeWidth = 3;
canvas.drawCircle(center, 15, outerPaint);
// Inner dot
final innerPaint = Paint()
..color = isDraggingCenter ? AppTheme.successColor : AppTheme.primaryColor
..style = PaintingStyle.fill;
final innerPaint = Paint()..color = isDraggingCenter ? Colors.redAccent : Colors.red..style = PaintingStyle.fill;
canvas.drawCircle(center, 5, innerPaint);
// Crosshair
final crossPaint = Paint()
..color = isDraggingCenter ? AppTheme.successColor : AppTheme.primaryColor
..strokeWidth = 2;
canvas.drawLine(
Offset(center.dx - 20, center.dy),
Offset(center.dx - 8, center.dy),
crossPaint,
);
canvas.drawLine(
Offset(center.dx + 8, center.dy),
Offset(center.dx + 20, center.dy),
crossPaint,
);
canvas.drawLine(
Offset(center.dx, center.dy - 20),
Offset(center.dx, center.dy - 8),
crossPaint,
);
canvas.drawLine(
Offset(center.dx, center.dy + 8),
Offset(center.dx, center.dy + 20),
crossPaint,
);
}
void _drawRadiusHandle(
Canvas canvas,
Size size,
Offset center,
double baseRadius,
) {
// Radius handle on the right edge of the outermost ring
final actualHandleX = center.dx + baseRadius;
final clampedHandleX = actualHandleX.clamp(20.0, size.width - 20);
final clampedHandleY = center.dy.clamp(20.0, size.height - 20);
final handlePos = Offset(clampedHandleX, clampedHandleY);
// Check if handle is clamped (radius extends beyond visible area)
final isClamped = actualHandleX > size.width - 20;
final paint = Paint()
..color = isDraggingRadius
? AppTheme.successColor
: (isClamped ? Colors.orange : AppTheme.warningColor)
..style = PaintingStyle.fill;
// Draw handle as a small circle with arrows
canvas.drawCircle(handlePos, 14, paint);
// Draw arrow indicators
final arrowPaint = Paint()
..color = Colors.white
..strokeWidth = 2
..style = PaintingStyle.stroke;
// Left arrow
canvas.drawLine(
Offset(handlePos.dx - 4, handlePos.dy),
Offset(handlePos.dx - 8, handlePos.dy - 4),
arrowPaint,
);
canvas.drawLine(
Offset(handlePos.dx - 4, handlePos.dy),
Offset(handlePos.dx - 8, handlePos.dy + 4),
arrowPaint,
);
// Right arrow
canvas.drawLine(
Offset(handlePos.dx + 4, handlePos.dy),
Offset(handlePos.dx + 8, handlePos.dy - 4),
arrowPaint,
);
canvas.drawLine(
Offset(handlePos.dx + 4, handlePos.dy),
Offset(handlePos.dx + 8, handlePos.dy + 4),
arrowPaint,
);
// Label
final textPainter = TextPainter(
text: const TextSpan(
text: 'EXT.',
style: TextStyle(
color: Colors.white,
fontSize: 8,
fontWeight: FontWeight.bold,
),
),
textDirection: TextDirection.ltr,
);
textPainter.layout();
textPainter.paint(
canvas,
Offset(handlePos.dx - textPainter.width / 2, handlePos.dy + 16),
);
}
void _drawInnerRadiusHandle(
Canvas canvas,
Size size,
Offset center,
double innerRadiusPx,
) {
// Inner radius handle on the top edge of the innermost ring
final actualHandleY = center.dy - innerRadiusPx;
final clampedHandleX = center.dx.clamp(20.0, size.width - 20);
final clampedHandleY = actualHandleY.clamp(20.0, size.height - 20);
final handlePos = Offset(clampedHandleX, clampedHandleY);
final isClamped = actualHandleY < 20.0;
final paint = Paint()
..color = isDraggingInnerRadius
? AppTheme.successColor
: (isClamped ? Colors.orange : Colors.purpleAccent)
..style = PaintingStyle.fill;
// Draw handle
canvas.drawCircle(handlePos, 14, paint);
// Up/Down arrow indicators
final arrowPaint = Paint()
..color = Colors.white
..strokeWidth = 2
..style = PaintingStyle.stroke;
// Up arrow
canvas.drawLine(
Offset(handlePos.dx, handlePos.dy - 4),
Offset(handlePos.dx - 4, handlePos.dy - 8),
arrowPaint,
);
canvas.drawLine(
Offset(handlePos.dx, handlePos.dy - 4),
Offset(handlePos.dx + 4, handlePos.dy - 8),
arrowPaint,
);
// Down arrow
canvas.drawLine(
Offset(handlePos.dx, handlePos.dy + 4),
Offset(handlePos.dx - 4, handlePos.dy + 8),
arrowPaint,
);
canvas.drawLine(
Offset(handlePos.dx, handlePos.dy + 4),
Offset(handlePos.dx + 4, handlePos.dy + 8),
arrowPaint,
);
// Label
final textPainter = TextPainter(
text: const TextSpan(
text: 'INT.',
style: TextStyle(
color: Colors.white,
fontSize: 8,
fontWeight: FontWeight.bold,
),
),
textDirection: TextDirection.ltr,
);
textPainter.layout();
textPainter.paint(
canvas,
Offset(handlePos.dx - textPainter.width / 2, handlePos.dy - 24),
);
final crossPaint = Paint()..color = isDraggingCenter ? Colors.redAccent : Colors.red..strokeWidth = 2;
canvas.drawLine(Offset(center.dx - 20, center.dy), Offset(center.dx - 8, center.dy), crossPaint);
canvas.drawLine(Offset(center.dx + 8, center.dy), Offset(center.dx + 20, center.dy), crossPaint);
canvas.drawLine(Offset(center.dx, center.dy - 20), Offset(center.dx, center.dy - 8), crossPaint);
canvas.drawLine(Offset(center.dx, center.dy + 4), Offset(center.dx, center.dy + 20), crossPaint);
}
void _drawInstructions(Canvas canvas, Size size) {
const instruction = 'Deplacez le centre ou ajustez le rayon';
final textPainter = TextPainter(
text: TextSpan(
text: instruction,
style: TextStyle(
color: Colors.white.withValues(alpha: 0.9),
fontSize: 12,
backgroundColor: Colors.black54,
),
),
text: TextSpan(text: instruction, style: TextStyle(color: Colors.white.withValues(alpha: 0.9), fontSize: 12, backgroundColor: Colors.black54)),
textDirection: TextDirection.ltr,
);
textPainter.layout();
textPainter.paint(
canvas,
Offset((size.width - textPainter.width) / 2, size.height - 30),
);
textPainter.paint(canvas, Offset((size.width - textPainter.width) / 2, size.height - 30));
}
@override
bool shouldRepaint(covariant _CalibrationPainter oldDelegate) {
bool shouldRepaint(CustomPainter oldDelegate) {
if (oldDelegate is! _CalibrationPainter) return true;
return centerX != oldDelegate.centerX ||
centerY != oldDelegate.centerY ||
radius != oldDelegate.radius ||

View File

@@ -1,19 +1,18 @@
/// Écran de capture - Première étape du workflow d'analyse.
///
/// Permet de sélectionner le type de cible (concentrique ou silhouette)
/// et la source d'image (caméra ou galerie). Affiche un aperçu de l'image
/// sélectionnée avant de lancer l'analyse.
library;
import 'dart:io';
import 'package:google_mlkit_document_scanner/google_mlkit_document_scanner.dart';
import 'package:flutter/material.dart';
import 'package:image_picker/image_picker.dart';
import 'package:permission_handler/permission_handler.dart';
import 'package:device_info_plus/device_info_plus.dart';
import 'package:provider/provider.dart';
import '../../core/constants/app_constants.dart';
import '../../core/theme/app_theme.dart';
import '../../data/models/target_type.dart';
import '../crop/crop_screen.dart';
import '../session/session_provider.dart';
import 'widgets/image_source_button.dart';
import '../../services/image_crop_service.dart';
import '../../services/document_scanner_service.dart'; // Scanner ML Kit : redresse la cible de face
class CaptureScreen extends StatefulWidget {
const CaptureScreen({super.key});
@@ -24,31 +23,42 @@ class CaptureScreen extends StatefulWidget {
class _CaptureScreenState extends State<CaptureScreen> {
final ImagePicker _picker = ImagePicker();
TargetType _selectedType = TargetType.concentric;
final ImageCropService _cropService = ImageCropService();
final TargetType _selectedType = TargetType.concentric;
// Scanner de documents Google ML Kit (redresse la cible de face automatiquement)
final DocumentScannerService _docScanner = DocumentScannerService();
String? _selectedImagePath;
bool _isLoading = false;
// ─────────────────────────────────────────────────────────────────────────
// Build principal
// ─────────────────────────────────────────────────────────────────────────
@override
Widget build(BuildContext context) {
final sessionProvider = context.watch<SessionProvider>();
final title = sessionProvider.isSessionActive
? 'Cible ${sessionProvider.targetCount + 1}'
: 'Source';
return Scaffold(
appBar: AppBar(title: const Text('Nouvelle Analyse')),
appBar: AppBar(title: Text(title)),
body: SingleChildScrollView(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
child: Column(
crossAxisAlignment: CrossAxisAlignment.stretch,
children: [
const SizedBox(height: AppConstants.largePadding),
// Image source selection
_buildSectionTitle('Source de l\'Image'),
const SizedBox(height: 12),
Row(
children: [
Expanded(
child: ImageSourceButton(
icon: Icons.camera_alt,
icon: Icons.document_scanner,
label: 'Scanner',
onPressed: _isLoading ? null : _scanDocument,
onPressed: _isLoading ? null : _scanWithDocumentScanner,
),
),
const SizedBox(width: 12),
@@ -56,16 +66,12 @@ class _CaptureScreenState extends State<CaptureScreen> {
child: ImageSourceButton(
icon: Icons.photo_library,
label: 'Galerie',
onPressed: _isLoading
? null
: () => _captureImage(ImageSource.gallery),
onPressed: _isLoading ? null : _handleGallerySelection,
),
),
],
),
const SizedBox(height: AppConstants.largePadding),
// Image preview
if (_isLoading)
const Center(
child: Padding(
@@ -73,90 +79,147 @@ class _CaptureScreenState extends State<CaptureScreen> {
child: CircularProgressIndicator(),
),
)
else if (_selectedImagePath != null)
_buildImagePreview(),
// Guide text
if (_selectedImagePath == null && !_isLoading) _buildGuide(),
else
_buildGuide(),
],
),
),
floatingActionButton: _selectedImagePath != null
? FloatingActionButton.extended(
onPressed: _analyzeImage,
icon: const Icon(Icons.arrow_forward),
label: const Text('Suivant'),
)
: null,
);
}
// ─────────────────────────────────────────────────────────────────────────
// Déclic → lance le scanner de documents Google ML Kit qui redresse
// automatiquement la cible (feuille rectangulaire) de face.
// ─────────────────────────────────────────────────────────────────────────
Future<void> _scanWithDocumentScanner() async {
setState(() => _isLoading = true);
try {
final result = await _docScanner.scanTarget();
if (!result.success) {
// L'utilisateur a annulé le scan : on ne fait rien de plus.
if (mounted) setState(() => _isLoading = false);
return;
}
setState(() {
_selectedImagePath = result.imagePath;
});
_analyzeImage();
} catch (e) {
debugPrint('Erreur scanner document: $e');
if (mounted) {
ScaffoldMessenger.of(context).showSnackBar(
const SnackBar(
content: Text('Le scan a échoué. Réessayez.'),
),
);
}
} finally {
if (mounted) setState(() => _isLoading = false);
}
}
// ─────────────────────────────────────────────────────────────────────────
// Galerie (inchangée)
// ─────────────────────────────────────────────────────────────────────────
Future<void> _handleGallerySelection() async {
PermissionStatus status;
if (Platform.isAndroid) {
final deviceInfo = DeviceInfoPlugin();
final androidInfo = await deviceInfo.androidInfo;
status = androidInfo.version.sdkInt >= 33
? await Permission.photos.request()
: await Permission.storage.request();
} else {
status = await Permission.photos.request();
}
if (status.isGranted) {
_captureImageFromGallery();
} else if (status.isPermanentlyDenied) {
_showSettingsDialog();
} else {
if (mounted) {
ScaffoldMessenger.of(context).showSnackBar(
const SnackBar(
content: Text('Accès à la galerie requis pour continuer'),
),
);
}
}
}
void _showSettingsDialog() {
showDialog(
context: context,
builder: (context) => AlertDialog(
title: const Text('Permission requise'),
content: const Text(
'L\'accès aux photos est nécessaire. Veuillez l\'activer dans les paramètres.',
),
actions: [
TextButton(
onPressed: () => Navigator.pop(context),
child: const Text('Annuler'),
),
TextButton(
onPressed: () => openAppSettings(),
child: const Text('Paramètres'),
),
],
),
);
}
Future<void> _captureImageFromGallery() async {
setState(() => _isLoading = true);
try {
final XFile? image = await _picker.pickImage(
source: ImageSource.gallery,
maxWidth: 2048,
maxHeight: 2048,
imageQuality: 90,
);
if (image != null) {
setState(() {
_selectedImagePath = image.path;
});
_analyzeImage();
}
} catch (e) {
debugPrint('Erreur galerie: $e');
} finally {
if (mounted) setState(() => _isLoading = false);
}
}
void _analyzeImage() {
if (_selectedImagePath == null) return;
Navigator.push(
context,
MaterialPageRoute(
builder: (_) => CropScreen(
imagePath: _selectedImagePath!,
targetType: _selectedType,
),
),
);
}
// ─────────────────────────────────────────────────────────────────────────
// Helpers UI
// ─────────────────────────────────────────────────────────────────────────
Widget _buildSectionTitle(String title) {
return Text(
title,
style: Theme.of(
context,
).textTheme.titleMedium?.copyWith(fontWeight: FontWeight.bold),
);
}
Widget _buildImagePreview() {
return Column(
children: [
_buildSectionTitle('Apercu'),
const SizedBox(height: 12),
ClipRRect(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
child: Stack(
children: [
Image.file(
File(_selectedImagePath!),
fit: BoxFit.contain,
width: double.infinity,
),
Positioned(
top: 8,
right: 8,
child: IconButton(
icon: const Icon(Icons.close),
onPressed: () {
setState(() => _selectedImagePath = null);
},
style: IconButton.styleFrom(
backgroundColor: Colors.black54,
foregroundColor: Colors.white,
),
),
),
],
),
),
const SizedBox(height: 12),
_buildFramingHints(),
],
);
}
Widget _buildFramingHints() {
return Card(
color: AppTheme.warningColor.withValues(alpha: 0.1),
child: Padding(
padding: const EdgeInsets.all(12),
child: Row(
children: [
Icon(Icons.info_outline, color: AppTheme.warningColor),
const SizedBox(width: 12),
Expanded(
child: Text(
'Assurez-vous que la cible est bien centree et visible.',
style: TextStyle(
color: AppTheme.warningColor.withValues(alpha: 0.8),
),
),
),
],
),
),
style: Theme.of(context)
.textTheme
.titleMedium
?.copyWith(fontWeight: FontWeight.bold),
);
}
@@ -170,18 +233,23 @@ class _CaptureScreenState extends State<CaptureScreen> {
const SizedBox(height: 12),
Text(
'Conseils pour une bonne analyse',
style: Theme.of(
context,
).textTheme.titleSmall?.copyWith(fontWeight: FontWeight.bold),
style: Theme.of(context)
.textTheme
.titleSmall
?.copyWith(fontWeight: FontWeight.bold),
),
const SizedBox(height: 12),
_buildGuideItem(
Icons.crop_free,
'Cadrez la cible entiere dans l\'image',
'Cadrez la cible entière dans l\'image',
),
_buildGuideItem(Icons.wb_sunny, 'Utilisez un bon eclairage'),
_buildGuideItem(Icons.wb_sunny, 'Utilisez un bon éclairage'),
_buildGuideItem(Icons.straighten, 'Prenez la photo de face'),
_buildGuideItem(Icons.blur_off, 'Evitez les images floues'),
_buildGuideItem(Icons.blur_off, 'Évitez les images floues'),
_buildGuideItem(
Icons.cleaning_services,
'Nettoyer votre objectif avec une chiffonnette',
),
],
),
),
@@ -200,81 +268,4 @@ class _CaptureScreenState extends State<CaptureScreen> {
),
);
}
Future<void> _scanDocument() async {
setState(() => _isLoading = true);
try {
final options = DocumentScannerOptions(
documentFormat: DocumentFormat.jpeg,
mode: ScannerMode.base,
pageLimit: 1,
isGalleryImport: false,
);
final scanner = DocumentScanner(options: options);
final documents = await scanner.scanDocument();
if (documents.images.isNotEmpty) {
setState(() => _selectedImagePath = documents.images.first);
}
} catch (e) {
if (mounted) {
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(
content: Text('Erreur lors du scan: $e'),
backgroundColor: AppTheme.errorColor,
),
);
}
} finally {
if (mounted) {
setState(() => _isLoading = false);
}
}
}
Future<void> _captureImage(ImageSource source) async {
setState(() => _isLoading = true);
try {
final XFile? image = await _picker.pickImage(
source: source,
maxWidth: 2048,
maxHeight: 2048,
imageQuality: 90,
);
if (image != null) {
setState(() => _selectedImagePath = image.path);
}
} catch (e) {
if (mounted) {
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(
content: Text('Erreur lors de la capture: $e'),
backgroundColor: AppTheme.errorColor,
),
);
}
} finally {
if (mounted) {
setState(() => _isLoading = false);
}
}
}
void _analyzeImage() {
if (_selectedImagePath == null) return;
Navigator.push(
context,
MaterialPageRoute(
builder: (_) => CropScreen(
imagePath: _selectedImagePath!,
targetType: _selectedType,
),
),
);
}
}

View File

@@ -1,13 +1,7 @@
/// Écran de recadrage d'image en format carré (1:1).
///
/// Permet à l'utilisateur de déplacer et zoomer l'image pour sélectionner
/// la zone à recadrer. Le carré de recadrage est fixe au centre de l'écran.
library;
import 'dart:io';
import 'dart:math' as math;
import 'dart:ui' as ui;
import 'package:flutter/material.dart';
import '../../core/theme/app_theme.dart';
import '../../data/models/target_type.dart';
import '../../services/image_crop_service.dart';
@@ -15,13 +9,28 @@ import '../analysis/analysis_screen.dart';
import 'widgets/crop_overlay.dart';
class CropScreen extends StatefulWidget {
/// Image affichée/recadrée dans cet écran. Au tout premier passage, c'est
/// aussi l'image originale. Lors des allers-retours, on recharge toujours
/// l'ORIGINAL ici (jamais une image déjà recadrée) pour éviter le zoom
/// cumulatif.
final String imagePath;
/// Chemin de l'image ORIGINALE (jamais recadrée). Si null, [imagePath] est
/// considéré comme l'original (premier passage depuis la caméra/galerie).
final String? originalImagePath;
final TargetType targetType;
/// Rotation à restaurer au retour (en degrés). Le zoom n'est volontairement
/// PAS restauré : on repart toujours de l'image entière.
final double? initialRotation;
const CropScreen({
super.key,
required this.imagePath,
this.originalImagePath,
required this.targetType,
this.initialRotation,
});
@override
@@ -31,98 +40,238 @@ class CropScreen extends StatefulWidget {
class _CropScreenState extends State<CropScreen> {
final ImageCropService _cropService = ImageCropService();
// États de transformation
double _scale = 1.0;
double _baseScale = 1.0;
Offset _offset = Offset.zero;
Offset _startOffset = Offset.zero;
Offset _startFocalPoint = Offset.zero;
// PRÉCISION MAXIMUM : Amplitude restreinte de -15.0 à 15.0 degrés
double _rotation = 0.0;
bool _isLoading = false;
bool _imageLoaded = false;
Size? _imageSize;
late Size _viewportSize;
late double _cropSize;
// Position et échelle de l'image
Offset _offset = Offset.zero;
double _scale = 1.0;
double _baseScale = 1.0;
Offset _startFocalPoint = Offset.zero;
Offset _startOffset = Offset.zero;
// Dimensions calculées
double _cropSize = 0;
Size _viewportSize = Size.zero;
/// L'image effectivement travaillée par cet écran : toujours l'originale.
String get _workingImagePath =>
widget.originalImagePath ?? widget.imagePath;
@override
void initState() {
super.initState();
_loadImageDimensions();
// On restaure uniquement la rotation (pas le zoom).
_rotation = widget.initialRotation ?? 0.0;
_loadImageInfo();
}
Future<void> _loadImageDimensions() async {
final file = File(widget.imagePath);
final bytes = await file.readAsBytes();
final codec = await ui.instantiateImageCodec(bytes);
final frame = await codec.getNextFrame();
setState(() {
_imageSize = Size(
frame.image.width.toDouble(),
frame.image.height.toDouble(),
);
_imageLoaded = true;
});
Future<void> _loadImageInfo() async {
final file = File(_workingImagePath);
final decodedImage = await decodeImageFromList(await file.readAsBytes());
if (mounted) {
setState(() {
_imageSize = Size(
decodedImage.width.toDouble(),
decodedImage.height.toDouble(),
);
_imageLoaded = true;
});
}
}
@override
Widget build(BuildContext context) {
return Scaffold(
backgroundColor: Colors.black,
backgroundColor: const Color(0xFF101214),
appBar: AppBar(
backgroundColor: Colors.black,
foregroundColor: Colors.white,
title: const Text('Recadrer'),
backgroundColor: const Color(0xFF101214),
elevation: 0,
centerTitle: true,
title: const Text(
'Centrage de la cible',
style: TextStyle(color: Colors.white, fontSize: 18),
),
leading: IconButton(
icon: const Icon(Icons.close),
icon: const Icon(Icons.arrow_back, color: Colors.white),
onPressed: () => Navigator.pop(context),
),
actions: [
if (!_isLoading)
if (_rotation != 0.0 || _scale != 1.0 || _offset != Offset.zero)
IconButton(
icon: const Icon(Icons.check),
onPressed: _onCropConfirm,
icon: const Icon(Icons.refresh, color: Colors.white70),
tooltip: 'Réinitialiser l\'orientation',
onPressed: () {
setState(() {
_rotation = 0.0;
_scale = 1.0;
_offset = Offset.zero;
_initializeImagePosition();
});
},
),
],
),
body: _buildBody(),
body: _isLoading
? const Center(child: CircularProgressIndicator(color: Color(0xFF1A73E8)))
: Column(
children: [
// Zone interactive de crop
Expanded(
child: Container(
margin: const EdgeInsets.all(20),
decoration: BoxDecoration(
borderRadius: BorderRadius.circular(12),
border: Border.all(color: Colors.white10),
),
child: ClipRRect(
borderRadius: BorderRadius.circular(12),
child: _imageLoaded ? _buildInteractiveCrop() : const Center(child: CircularProgressIndicator()),
),
),
),
// TEXTE D'AIDE AJUSTÉ
Padding(
padding: const EdgeInsets.symmetric(horizontal: 20),
child: Column(
children: [
Row(
mainAxisAlignment: MainAxisAlignment.center,
children: [
const Icon(Icons.center_focus_strong, color: Color(0xFF00FF00), size: 20),
const SizedBox(width: 8),
Text(
'Alignez et pivotez la cible sur la croix',
style: TextStyle(color: Colors.white.withOpacity(0.8), fontSize: 14, fontWeight: FontWeight.w500),
),
],
),
const SizedBox(height: 4),
Text(
'Glissez à un doigt pour déplacer, pincez pour zoomer',
style: TextStyle(color: Colors.white.withOpacity(0.5), fontSize: 12),
),
],
),
),
const SizedBox(height: 16),
// JAUGE DE ROTATION HAUTE PRÉCISION BRIDÉE À 15°
Padding(
padding: const EdgeInsets.symmetric(horizontal: 24),
child: Column(
children: [
Row(
mainAxisAlignment: MainAxisAlignment.spaceBetween,
children: [
const Text(
'Rotation de l\'image',
style: TextStyle(color: Colors.white70, fontSize: 13, fontWeight: FontWeight.w600),
),
Text(
'${_rotation.toStringAsFixed(1)}°',
style: const TextStyle(color: Color(0xFF00FF00), fontWeight: FontWeight.bold),
),
],
),
Row(
children: [
const Icon(Icons.rotate_left, color: Colors.white38, size: 20),
Expanded(
child: Slider(
value: _rotation,
min: -15.0,
max: 15.0,
divisions: 300,
label: '${_rotation.toStringAsFixed(1)}°',
activeColor: const Color(0xFF1A73E8),
inactiveColor: Colors.white12,
onChanged: (double value) {
setState(() {
_rotation = value;
});
},
),
),
const Icon(Icons.rotate_right, color: Colors.white38, size: 20),
const SizedBox(width: 4),
IconButton(
icon: const Icon(Icons.restart_alt, color: Colors.white54, size: 20),
onPressed: () {
setState(() {
_rotation = 0.0;
});
},
),
],
),
],
),
),
// Boutons du bas
Padding(
padding: const EdgeInsets.fromLTRB(20, 10, 20, 30),
child: Row(
children: [
Expanded(
child: OutlinedButton(
onPressed: () => Navigator.pop(context),
style: OutlinedButton.styleFrom(
side: const BorderSide(color: Colors.white24),
padding: const EdgeInsets.symmetric(vertical: 15),
shape: RoundedRectangleBorder(borderRadius: BorderRadius.circular(8)),
),
child: const Text('Retour', style: TextStyle(color: Colors.white)),
),
),
const SizedBox(width: 16),
Expanded(
child: ElevatedButton(
onPressed: _onCropConfirm,
style: ElevatedButton.styleFrom(
backgroundColor: const Color(0xFF1A73E8),
foregroundColor: Colors.white,
padding: const EdgeInsets.symmetric(vertical: 15),
shape: RoundedRectangleBorder(borderRadius: BorderRadius.circular(8)),
),
child: const Text('Suivant', style: TextStyle(fontWeight: FontWeight.bold)),
),
),
],
),
),
],
),
);
}
Widget _buildBody() {
if (!_imageLoaded || _imageSize == null) {
return const Center(
child: CircularProgressIndicator(color: Colors.white),
);
}
if (_isLoading) {
return Center(
child: Column(
mainAxisAlignment: MainAxisAlignment.center,
children: [
const CircularProgressIndicator(color: Colors.white),
const SizedBox(height: 16),
Text(
'Recadrage en cours...',
style: TextStyle(color: Colors.white.withValues(alpha: 0.8)),
),
],
),
);
}
Widget _buildInteractiveCrop() {
return LayoutBuilder(
builder: (context, constraints) {
_viewportSize = Size(constraints.maxWidth, constraints.maxHeight);
// Taille du carré de crop (90% de la plus petite dimension)
_cropSize =
math.min(constraints.maxWidth, constraints.maxHeight) * 0.85;
// FIX : On calcule d'abord la taille de la photo affichée avant de définir la taille du cadre vert !
final imageAspect = _imageSize != null ? _imageSize!.width / _imageSize!.height : 1.0;
final viewportAspect = _viewportSize.width / _viewportSize.height;
double displayWidth, displayHeight;
if (imageAspect > viewportAspect) {
displayWidth = _viewportSize.width;
displayHeight = _viewportSize.width / imageAspect;
} else {
displayHeight = _viewportSize.height;
displayWidth = _viewportSize.height * imageAspect;
}
// Le cadre couvre TOUT le petit côté de l'image affichée (carré maximum),
// au lieu des 85% précédents qui rognaient inutilement les bords.
_cropSize = math.min(displayWidth, displayHeight);
// Calculer l'échelle initiale si pas encore fait
if (_scale == 1.0 && _offset == Offset.zero) {
_initializeImagePosition();
}
@@ -130,19 +279,19 @@ class _CropScreenState extends State<CropScreen> {
return GestureDetector(
onScaleStart: _onScaleStart,
onScaleUpdate: _onScaleUpdate,
onScaleEnd: _onScaleEnd,
child: Stack(
children: [
// Image transformée
// 1. L'image brute avec ses transformations (Reste calé sur BoxFit.contain d'origine)
Positioned.fill(
child: Center(
child: Transform(
transform: Matrix4.identity()
..setTranslationRaw(_offset.dx, _offset.dy, 0)
..scale(_scale, _scale),
..scale(_scale, _scale)
..rotateZ(_rotation * (math.pi / 180)),
alignment: Alignment.center,
child: Image.file(
File(widget.imagePath),
File(_workingImagePath),
fit: BoxFit.contain,
width: _viewportSize.width,
height: _viewportSize.height,
@@ -151,19 +300,58 @@ class _CropScreenState extends State<CropScreen> {
),
),
// Overlay de recadrage
// 2. Les lignes vertes de visée prolongées
Positioned.fill(
child: IgnorePointer(
child: CropOverlay(cropSize: _cropSize, showGrid: true),
child: Stack(
children: [
Center(
child: Container(
width: double.infinity,
height: 1.5,
color: const Color(0xFF00FF00).withOpacity(0.6),
),
),
Center(
child: Container(
width: 1.5,
height: double.infinity,
color: const Color(0xFF00FF00).withOpacity(0.6),
),
),
],
),
),
),
// Instructions en bas
Positioned(
left: 0,
right: 0,
bottom: 24,
child: _buildInstructions(),
// 3. MASQUE OPAQUE EXTÉRIEUR - COINS DROITS ET CARRÉS
Positioned.fill(
child: IgnorePointer(
child: ColorFiltered(
colorFilter: ColorFilter.mode(
const Color(0xFF101214),
BlendMode.srcOut,
),
child: Stack(
children: [
Center(
child: Container(
width: _cropSize,
height: _cropSize,
color: Colors.black,
),
),
],
),
),
),
),
// 4. Ton overlay avec les coins blancs
Positioned.fill(
child: IgnorePointer(
child: CropOverlay(cropSize: _cropSize, showGrid: false),
),
),
],
),
@@ -178,7 +366,7 @@ class _CropScreenState extends State<CropScreen> {
final imageAspect = _imageSize!.width / _imageSize!.height;
final viewportAspect = _viewportSize.width / _viewportSize.height;
// Calculer la taille de l'image affichée (avec BoxFit.contain)
// 1. Calcul strict de la taille de l'image affichée en BoxFit.contain
double displayWidth, displayHeight;
if (imageAspect > viewportAspect) {
displayWidth = _viewportSize.width;
@@ -188,12 +376,10 @@ class _CropScreenState extends State<CropScreen> {
displayWidth = _viewportSize.height * imageAspect;
}
// Échelle pour que le plus petit côté de l'image remplisse le carré de crop
final minDisplayDim = math.min(displayWidth, displayHeight);
_scale = _cropSize / minDisplayDim;
// S'assurer d'un scale minimum
if (_scale < 1.0) _scale = 1.0;
// On repart TOUJOURS de l'image entière, centrée, sans zoom :
// c'est ce qui empêche tout cumul de recadrage entre les allers-retours.
_scale = 1.0;
_offset = Offset.zero;
}
void _onScaleStart(ScaleStartDetails details) {
@@ -204,102 +390,72 @@ class _CropScreenState extends State<CropScreen> {
void _onScaleUpdate(ScaleUpdateDetails details) {
setState(() {
// Mise à jour du scale
_scale = (_baseScale * details.scale).clamp(0.5, 5.0);
// Mise à jour de la position
_scale = (_baseScale * details.scale).clamp(0.8, 8.0);
final delta = details.focalPoint - _startFocalPoint;
_offset = _startOffset + delta;
});
}
void _onScaleEnd(ScaleEndDetails details) {
// Optionnel: contraindre l'image pour qu'elle couvre toujours le carré de crop
}
Widget _buildInstructions() {
return Container(
margin: const EdgeInsets.symmetric(horizontal: 24),
padding: const EdgeInsets.symmetric(horizontal: 16, vertical: 12),
decoration: BoxDecoration(
color: Colors.black.withValues(alpha: 0.7),
borderRadius: BorderRadius.circular(8),
),
child: Row(
mainAxisAlignment: MainAxisAlignment.center,
children: [
Icon(
Icons.touch_app,
color: Colors.white.withValues(alpha: 0.8),
size: 20,
),
const SizedBox(width: 8),
Text(
'Déplacez et zoomez pour cadrer la cible',
style: TextStyle(
color: Colors.white.withValues(alpha: 0.9),
fontSize: 14,
),
),
],
),
);
}
Future<void> _onCropConfirm() async {
if (_imageSize == null) return;
setState(() {
_isLoading = true;
});
setState(() => _isLoading = true);
try {
// Calculer la zone de crop en coordonnées normalisées de l'image
// CORRECTIF ZOOM : On sauvegarde et réinitialise le zoom avant de calculer
// la zone de découpe pour ne pas transmettre le zoom aux écrans suivants
final savedScale = _scale;
final savedOffset = _offset;
_scale = 1.0;
_offset = Offset.zero;
final cropRect = _calculateCropRect();
// Recadrer l'image
final croppedPath = await _cropService.cropToSquare(
widget.imagePath,
// On restaure pour l'affichage (au cas où on revient en arrière)
_scale = savedScale;
_offset = savedOffset;
// Le crop est TOUJOURS calculé sur l'image originale, jamais sur un
// résultat déjà recadré.
final croppedImagePath = await _cropService.cropToSquare(
_workingImagePath,
cropRect,
rotationDegrees: _rotation,
);
const targetCenterX = 0.5;
const targetCenterY = 0.5;
if (!mounted) return;
// Naviguer vers l'écran d'analyse avec l'image recadrée
Navigator.pushReplacement(
context,
MaterialPageRoute(
builder: (_) => AnalysisScreen(
imagePath: croppedPath,
imagePath: croppedImagePath,
// On fait suivre l'ORIGINAL et la rotation choisie, pour pouvoir
// revenir au centrage sans jamais re-recadrer le résultat.
originalImagePath: _workingImagePath,
cropRotation: _rotation,
targetType: widget.targetType,
initialCenterX: targetCenterX,
initialCenterY: targetCenterY,
),
),
);
} catch (e) {
if (!mounted) return;
setState(() {
_isLoading = false;
});
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(
content: Text('Erreur lors du recadrage: $e'),
backgroundColor: AppTheme.errorColor,
),
);
if (mounted) {
setState(() => _isLoading = false);
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(content: Text('Erreur de découpe : $e'), backgroundColor: AppTheme.errorColor),
);
}
}
}
CropRect _calculateCropRect() {
if (_imageSize == null) {
return const CropRect(x: 0, y: 0, width: 1, height: 1);
}
if (_imageSize == null) return const CropRect(x: 0, y: 0, width: 1, height: 1);
final imageAspect = _imageSize!.width / _imageSize!.height;
final viewportAspect = _viewportSize.width / _viewportSize.height;
// Calculer la taille de l'image affichée (avec BoxFit.contain)
double displayWidth, displayHeight;
if (imageAspect > viewportAspect) {
displayWidth = _viewportSize.width;
@@ -309,33 +465,28 @@ class _CropScreenState extends State<CropScreen> {
displayWidth = _viewportSize.height * imageAspect;
}
// Taille de l'image après scale
final scaledWidth = displayWidth * _scale;
final scaledHeight = displayHeight * _scale;
// Position du centre de l'image dans le viewport
final imageCenterX = _viewportSize.width / 2 + _offset.dx;
final imageCenterY = _viewportSize.height / 2 + _offset.dy;
// Position du coin supérieur gauche de l'image
final imageLeft = imageCenterX - scaledWidth / 2;
final imageTop = imageCenterY - scaledHeight / 2;
// Position du carré de crop (centré dans le viewport)
final cropLeft = (_viewportSize.width - _cropSize) / 2;
final cropTop = (_viewportSize.height - _cropSize) / 2;
// Convertir en coordonnées relatives à l'image affichée
final relCropLeft = (cropLeft - imageLeft) / scaledWidth;
final relCropTop = (cropTop - imageTop) / scaledHeight;
final relCropSize = _cropSize / scaledWidth;
final relCropSizeY = _cropSize / scaledHeight;
final relCropWidth = _cropSize / scaledWidth;
final relCropHeight = _cropSize / scaledHeight;
return CropRect(
x: relCropLeft.clamp(0.0, 1.0),
y: relCropTop.clamp(0.0, 1.0),
width: relCropSize.clamp(0.0, 1.0 - relCropLeft.clamp(0.0, 1.0)),
height: relCropSizeY.clamp(0.0, 1.0 - relCropTop.clamp(0.0, 1.0)),
width: relCropWidth.clamp(0.0, 1.0),
height: relCropHeight.clamp(0.0, 1.0),
);
}
}

View File

@@ -68,7 +68,7 @@ class _CropOverlayPainter extends CustomPainter {
_drawGrid(canvas, cropRect);
}
// Dessiner le point central (croix)
// Dessiner le point central (croix interne vert fluo)
_drawCenterPoint(canvas, cropRect);
}
@@ -165,35 +165,40 @@ class _CropOverlayPainter extends CustomPainter {
}
void _drawCenterPoint(Canvas canvas, Rect rect) {
// Peinture de la croix interne (Vert Fluo)
final centerPaint = Paint()
..color = Colors.white.withValues(alpha: 0.8)
..color = const Color(0xFF00FF00)
..style = PaintingStyle.stroke
..strokeWidth = 2;
..strokeWidth = 2.0;
const size = 10.0;
// Cercle extérieur (Vert Fluo fin)
final circlePaint = Paint()
..color = const Color(0xFF00FF00).withValues(alpha: 0.9)
..style = PaintingStyle.stroke
..strokeWidth = 1.2;
const circleRadius = 10.0; // Augmenté légèrement à 10 pour que la croix respire
final centerX = rect.center.dx;
final centerY = rect.center.dy;
// Ligne horizontale
// 1. Dessiner le cercle de contour
canvas.drawCircle(rect.center, circleRadius, circlePaint);
// 2. Dessiner la croix UNIQUEMENT à l'intérieur du cercle
// Ligne horizontale (de gauche à droite, reste à l'intérieur)
canvas.drawLine(
Offset(centerX - size, centerY),
Offset(centerX + size, centerY),
Offset(centerX - circleRadius, centerY),
Offset(centerX + circleRadius, centerY),
centerPaint,
);
// Ligne verticale
// Ligne verticale (de haut en bas, reste à l'intérieur)
canvas.drawLine(
Offset(centerX, centerY - size),
Offset(centerX, centerY + size),
Offset(centerX, centerY - circleRadius),
Offset(centerX, centerY + circleRadius),
centerPaint,
);
// Petit cercle central pour précision (optionnel, mais aide à viser)
canvas.drawCircle(
rect.center,
2,
Paint()..color = Colors.red.withValues(alpha: 0.6),
);
}
@override

View File

@@ -0,0 +1,414 @@
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
import 'package:intl/intl.dart';
import '../../core/constants/app_constants.dart';
import '../../core/theme/app_theme.dart';
import '../../data/models/weapon.dart';
import '../../data/models/maintenance.dart';
import '../../data/repositories/session_repository.dart';
class WeaponDetailScreen extends StatefulWidget {
final Weapon weapon;
const WeaponDetailScreen({super.key, required this.weapon});
@override
State<WeaponDetailScreen> createState() => _WeaponDetailScreenState();
}
class _WeaponDetailScreenState extends State<WeaponDetailScreen> {
late Weapon _weapon;
List<MaintenanceEntry> _maintenance = [];
int _totalRounds = 0;
bool _isLoading = true;
@override
void initState() {
super.initState();
_weapon = widget.weapon;
_loadData();
}
Future<void> _loadData() async {
final repository = context.read<SessionRepository>();
final history = await repository.getMaintenanceHistory(_weapon.id);
final rounds = await repository.getRoundsFiredForWeapon(_weapon.id);
if (mounted) {
setState(() {
_maintenance = history;
_totalRounds = rounds;
_isLoading = false;
});
}
}
@override
Widget build(BuildContext context) {
return Scaffold(
appBar: AppBar(
title: Text(_weapon.customName ?? _weapon.name),
actions: [
IconButton(
icon: const Icon(Icons.edit),
onPressed: () => _showEditWeaponDialog(context),
),
],
),
body: _isLoading
? const Center(child: CircularProgressIndicator())
: SingleChildScrollView(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
child: Column(
crossAxisAlignment: CrossAxisAlignment.stretch,
children: [
_buildStatsSection(),
const SizedBox(height: 24),
_buildInfoCard(),
const SizedBox(height: 24),
_buildOptionsCard(),
const SizedBox(height: 24),
_buildHistorySection(),
],
),
),
floatingActionButton: FloatingActionButton.extended(
onPressed: () => _showAddMaintenanceDialog(context),
label: const Text('Entretien'),
icon: const Icon(Icons.build),
),
);
}
Widget _buildStatsSection() {
return Row(
children: [
Expanded(
child: _buildStatCard(
'Total Tirs',
_totalRounds.toString(),
Icons.ads_click,
AppTheme.primaryColor,
),
),
const SizedBox(width: 16),
Expanded(
child: _buildStatCard(
'Sessions',
'N/A',
Icons.history,
Colors.orange,
),
),
],
);
}
Widget _buildStatCard(String label, String value, IconData icon, Color color) {
return Card(
child: Padding(
padding: const EdgeInsets.all(16.0),
child: Column(
children: [
Icon(icon, color: color),
const SizedBox(height: 8),
Text(value, style: const TextStyle(fontSize: 20, fontWeight: FontWeight.bold)),
Text(label, style: const TextStyle(fontSize: 12, color: Colors.grey)),
],
),
),
);
}
Widget _buildInfoCard() {
return Card(
child: Padding(
padding: const EdgeInsets.all(16.0),
child: Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: [
const Text('Informations techniques', style: TextStyle(fontWeight: FontWeight.bold, fontSize: 16)),
const Divider(),
_buildInfoRow('Modèle', _weapon.name),
_buildInfoRow('Type', _weapon.type.displayName),
_buildInfoRow('Calibre', _weapon.caliber),
_buildInfoRow('Chargeurs', '${_weapon.magazineCount} x ${_weapon.magazineCapacity} coups'),
if (_weapon.notes != null && _weapon.notes!.isNotEmpty) ...[
const SizedBox(height: 8),
const Text('Notes:', style: TextStyle(fontWeight: FontWeight.w500)),
Text(_weapon.notes!, style: const TextStyle(color: Colors.grey)),
],
],
),
),
);
}
Widget _buildOptionsCard() {
return Card(
child: Padding(
padding: const EdgeInsets.all(16.0),
child: Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: [
const Text('Options & Personnalisation', style: TextStyle(fontWeight: FontWeight.bold, fontSize: 16)),
const Divider(),
_buildInfoRow('Optique / Lunette', _weapon.optic ?? 'Mire fer'),
_buildInfoRow('Modérateur / Silencieux', _weapon.silencer ?? 'Aucun'),
_buildInfoRow('Détente', _weapon.trigger ?? 'Standard'),
if (_weapon.customName != null)
_buildInfoRow('Surnom', _weapon.customName!),
],
),
),
);
}
Widget _buildInfoRow(String label, String value) {
return Padding(
padding: const EdgeInsets.symmetric(vertical: 4.0),
child: Row(
mainAxisAlignment: MainAxisAlignment.spaceBetween,
children: [
Text(label, style: const TextStyle(color: Colors.grey)),
Text(value, style: const TextStyle(fontWeight: FontWeight.w500)),
],
),
);
}
Widget _buildHistorySection() {
return Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: [
const Text('Historique d\'entretien', style: TextStyle(fontWeight: FontWeight.bold, fontSize: 18)),
const SizedBox(height: 8),
if (_maintenance.isEmpty)
const Padding(
padding: EdgeInsets.symmetric(vertical: 24.0),
child: Center(child: Text('Aucun entretien enregistré', style: TextStyle(color: Colors.grey))),
)
else
ListView.builder(
shrinkWrap: true,
physics: const NeverScrollableScrollPhysics(),
itemCount: _maintenance.length,
itemBuilder: (context, index) {
final entry = _maintenance[index];
return Card(
margin: const EdgeInsets.only(bottom: 8),
child: ListTile(
leading: CircleAvatar(
backgroundColor: _getMaintenanceColor(entry.type).withValues(alpha: 0.1),
child: Icon(_getMaintenanceIcon(entry.type), color: _getMaintenanceColor(entry.type), size: 20),
),
title: Text(entry.type.displayName),
subtitle: Text(entry.description),
trailing: Text(DateFormat('dd/MM/yy').format(entry.date), style: const TextStyle(fontSize: 12)),
onLongPress: () => _confirmDeleteMaintenance(context, entry),
),
);
},
),
],
);
}
Color _getMaintenanceColor(MaintenanceType type) {
switch (type) {
case MaintenanceType.cleaning: return Colors.blue;
case MaintenanceType.repair: return Colors.red;
case MaintenanceType.inspection: return Colors.green;
case MaintenanceType.upgrade: return Colors.purple;
case MaintenanceType.other: return Colors.grey;
}
}
IconData _getMaintenanceIcon(MaintenanceType type) {
switch (type) {
case MaintenanceType.cleaning: return Icons.opacity;
case MaintenanceType.repair: return Icons.build;
case MaintenanceType.inspection: return Icons.visibility;
case MaintenanceType.upgrade: return Icons.trending_up;
case MaintenanceType.other: return Icons.more_horiz;
}
}
void _showEditWeaponDialog(BuildContext context) async {
final nameController = TextEditingController(text: _weapon.name);
final caliberController = TextEditingController(text: _weapon.caliber);
final magCountController = TextEditingController(text: _weapon.magazineCount.toString());
final magCapController = TextEditingController(text: _weapon.magazineCapacity.toString());
final notesController = TextEditingController(text: _weapon.notes);
final opticController = TextEditingController(text: _weapon.optic);
final silencerController = TextEditingController(text: _weapon.silencer);
final triggerController = TextEditingController(text: _weapon.trigger);
final customNameController = TextEditingController(text: _weapon.customName);
WeaponType selectedType = _weapon.type;
final result = await showDialog<bool>(
context: context,
builder: (context) => StatefulBuilder(
builder: (context, setState) => AlertDialog(
title: const Text('Modifier l\'arme'),
content: SingleChildScrollView(
child: Column(
mainAxisSize: MainAxisSize.min,
children: [
TextField(
controller: nameController,
decoration: const InputDecoration(labelText: 'Modèle', hintText: 'ex: Glock 17'),
),
TextField(
controller: customNameController,
decoration: const InputDecoration(labelText: 'Surnom / Custom Name', hintText: 'ex: Mon Glock de Compète'),
),
DropdownButtonFormField<WeaponType>(
value: selectedType,
decoration: const InputDecoration(labelText: 'Type'),
items: WeaponType.values.map((t) => DropdownMenuItem(value: t, child: Text(t.displayName))).toList(),
onChanged: (v) => setState(() => selectedType = v!),
),
TextField(
controller: caliberController,
decoration: const InputDecoration(labelText: 'Calibre'),
),
const SizedBox(height: 16),
const Text('Équipement & Options', style: TextStyle(fontWeight: FontWeight.bold)),
TextField(
controller: opticController,
decoration: const InputDecoration(labelText: 'Optique / Lunette', hintText: 'ex: Holosun 507C'),
),
TextField(
controller: silencerController,
decoration: const InputDecoration(labelText: 'Modérateur / Silencieux'),
),
TextField(
controller: triggerController,
decoration: const InputDecoration(labelText: 'Détente / Trigger'),
),
const SizedBox(height: 16),
const Text('Logistique', style: TextStyle(fontWeight: FontWeight.bold)),
Row(
children: [
Expanded(
child: TextField(
controller: magCountController,
decoration: const InputDecoration(labelText: 'Chargeurs'),
keyboardType: TextInputType.number,
),
),
const SizedBox(width: 16),
Expanded(
child: TextField(
controller: magCapController,
decoration: const InputDecoration(labelText: 'Capacité'),
keyboardType: TextInputType.number,
),
),
],
),
TextField(
controller: notesController,
decoration: const InputDecoration(labelText: 'Notes'),
maxLines: 2,
),
],
),
),
actions: [
TextButton(onPressed: () => Navigator.pop(context, false), child: const Text('Annuler')),
ElevatedButton(onPressed: () => Navigator.pop(context, true), child: const Text('Enregistrer')),
],
),
),
);
if (result == true) {
final updatedWeapon = _weapon.copyWith(
name: nameController.text,
type: selectedType,
caliber: caliberController.text,
magazineCount: int.tryParse(magCountController.text) ?? 1,
magazineCapacity: int.tryParse(magCapController.text) ?? 10,
notes: notesController.text,
optic: opticController.text.isEmpty ? null : opticController.text,
silencer: silencerController.text.isEmpty ? null : silencerController.text,
trigger: triggerController.text.isEmpty ? null : triggerController.text,
customName: customNameController.text.isEmpty ? null : customNameController.text,
);
final repository = context.read<SessionRepository>();
await repository.updateWeapon(updatedWeapon);
setState(() {
_weapon = updatedWeapon;
});
}
}
void _showAddMaintenanceDialog(BuildContext context) async {
final descController = TextEditingController();
MaintenanceType selectedType = MaintenanceType.cleaning;
final result = await showDialog<bool>(
context: context,
builder: (context) => StatefulBuilder(
builder: (context, setState) => AlertDialog(
title: const Text('Ajouter un entretien'),
content: Column(
mainAxisSize: MainAxisSize.min,
children: [
DropdownButtonFormField<MaintenanceType>(
value: selectedType,
decoration: const InputDecoration(labelText: 'Type d\'intervention'),
items: MaintenanceType.values.map((t) => DropdownMenuItem(value: t, child: Text(t.displayName))).toList(),
onChanged: (v) => setState(() => selectedType = v!),
),
TextField(
controller: descController,
decoration: const InputDecoration(labelText: 'Description', hintText: 'ex: Nettoyage complet après séance'),
maxLines: 2,
),
],
),
actions: [
TextButton(onPressed: () => Navigator.pop(context, false), child: const Text('Annuler')),
ElevatedButton(onPressed: () => Navigator.pop(context, true), child: const Text('Ajouter')),
],
),
),
);
if (result == true && descController.text.isNotEmpty) {
final repository = context.read<SessionRepository>();
await repository.addMaintenanceEntry(
weaponId: _weapon.id,
type: selectedType,
description: descController.text,
roundsSinceLast: _totalRounds,
);
_loadData();
}
}
void _confirmDeleteMaintenance(BuildContext context, MaintenanceEntry entry) async {
final confirmed = await showDialog<bool>(
context: context,
builder: (context) => AlertDialog(
title: const Text('Supprimer'),
content: const Text('Supprimer cette entrée de l\'historique ?'),
actions: [
TextButton(onPressed: () => Navigator.pop(context, false), child: const Text('Annuler')),
TextButton(
onPressed: () => Navigator.pop(context, true),
child: const Text('Supprimer', style: TextStyle(color: AppTheme.errorColor)),
),
],
),
);
if (confirmed == true) {
final repository = context.read<SessionRepository>();
await repository.deleteMaintenanceEntry(entry.id);
_loadData();
}
}
}

View File

@@ -0,0 +1,208 @@
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
import '../../core/constants/app_constants.dart';
import '../../core/theme/app_theme.dart';
import '../../data/models/weapon.dart';
import '../../data/repositories/session_repository.dart';
import 'weapon_detail_screen.dart';
class WeaponListScreen extends StatefulWidget {
const WeaponListScreen({super.key});
@override
State<WeaponListScreen> createState() => _WeaponListScreenState();
}
class _WeaponListScreenState extends State<WeaponListScreen> {
List<Weapon> _weapons = [];
bool _isLoading = true;
@override
void initState() {
super.initState();
_loadWeapons();
}
Future<void> _loadWeapons() async {
final repository = context.read<SessionRepository>();
final weapons = await repository.getWeapons();
if (mounted) {
setState(() {
_weapons = weapons;
_isLoading = false;
});
}
}
@override
Widget build(BuildContext context) {
return Scaffold(
appBar: AppBar(
title: const Text('Mon Armurerie'),
),
body: _isLoading
? const Center(child: CircularProgressIndicator())
: _weapons.isEmpty
? _buildEmptyState()
: _buildWeaponList(),
floatingActionButton: FloatingActionButton(
onPressed: () => _showAddWeaponDialog(context),
child: const Icon(Icons.add),
),
);
}
Widget _buildEmptyState() {
return Center(
child: Column(
mainAxisAlignment: MainAxisAlignment.center,
children: [
Icon(Icons.shield, size: 64, color: Colors.grey[400]),
const SizedBox(height: 16),
const Text('Aucune arme enregistrée'),
const SizedBox(height: 24),
ElevatedButton(
onPressed: () => _showAddWeaponDialog(context),
child: const Text('Ajouter ma première arme'),
),
],
),
);
}
Widget _buildWeaponList() {
return ListView.builder(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
itemCount: _weapons.length,
itemBuilder: (context, index) {
final weapon = _weapons[index];
return Card(
margin: const EdgeInsets.only(bottom: 12),
child: ListTile(
leading: CircleAvatar(
backgroundColor: AppTheme.primaryColor.withValues(alpha: 0.1),
child: Icon(
weapon.type == WeaponType.handgun ? Icons.shield : Icons.ads_click,
color: AppTheme.primaryColor,
),
),
title: Text(weapon.displayName, style: const TextStyle(fontWeight: FontWeight.bold)),
subtitle: Text('${weapon.type.displayName}${weapon.caliber}'),
trailing: Column(
mainAxisAlignment: MainAxisAlignment.center,
crossAxisAlignment: CrossAxisAlignment.end,
children: [
Text('${weapon.magazineCount} chargeurs', style: const TextStyle(fontSize: 12)),
Text('${weapon.magazineCapacity} coups', style: const TextStyle(fontSize: 12, color: Colors.grey)),
],
),
onTap: () async {
await Navigator.push(
context,
MaterialPageRoute(builder: (_) => WeaponDetailScreen(weapon: weapon)),
);
_loadWeapons(); // Reload in case it was edited or maintenance was added
},
onLongPress: () => _confirmDelete(context, weapon),
),
);
},
);
}
void _showAddWeaponDialog(BuildContext context) async {
final nameController = TextEditingController();
final caliberController = TextEditingController();
final magCountController = TextEditingController(text: '2');
final magCapController = TextEditingController(text: '15');
WeaponType selectedType = WeaponType.handgun;
final result = await showDialog<bool>(
context: context,
builder: (context) => StatefulBuilder(
builder: (context, setState) => AlertDialog(
title: const Text('Ajouter une arme'),
content: SingleChildScrollView(
child: Column(
mainAxisSize: MainAxisSize.min,
children: [
TextField(
controller: nameController,
decoration: const InputDecoration(labelText: 'Nom de l\'arme', hintText: 'ex: Glock 17'),
),
DropdownButtonFormField<WeaponType>(
value: selectedType,
decoration: const InputDecoration(labelText: 'Type'),
items: WeaponType.values.map((t) => DropdownMenuItem(value: t, child: Text(t.displayName))).toList(),
onChanged: (v) => setState(() => selectedType = v!),
),
TextField(
controller: caliberController,
decoration: const InputDecoration(labelText: 'Calibre', hintText: 'ex: 9mm, .22LR'),
),
Row(
children: [
Expanded(
child: TextField(
controller: magCountController,
decoration: const InputDecoration(labelText: 'Chargeurs'),
keyboardType: TextInputType.number,
),
),
const SizedBox(width: 16),
Expanded(
child: TextField(
controller: magCapController,
decoration: const InputDecoration(labelText: 'Capacité'),
keyboardType: TextInputType.number,
),
),
],
),
],
),
),
actions: [
TextButton(onPressed: () => Navigator.pop(context, false), child: const Text('Annuler')),
ElevatedButton(onPressed: () => Navigator.pop(context, true), child: const Text('Ajouter')),
],
),
),
);
if (result == true && nameController.text.isNotEmpty) {
final repository = context.read<SessionRepository>();
await repository.addWeapon(
name: nameController.text,
type: selectedType,
caliber: caliberController.text,
magazineCount: int.tryParse(magCountController.text) ?? 1,
magazineCapacity: int.tryParse(magCapController.text) ?? 10,
);
_loadWeapons();
}
}
void _confirmDelete(BuildContext context, Weapon weapon) async {
final confirmed = await showDialog<bool>(
context: context,
builder: (context) => AlertDialog(
title: const Text('Supprimer'),
content: Text('Voulez-vous supprimer ${weapon.name} de votre armurerie ?'),
actions: [
TextButton(onPressed: () => Navigator.pop(context, false), child: const Text('Annuler')),
TextButton(
onPressed: () => Navigator.pop(context, true),
child: const Text('Supprimer', style: TextStyle(color: AppTheme.errorColor)),
),
],
),
);
if (confirmed == true) {
final repository = context.read<SessionRepository>();
await repository.deleteWeapon(weapon.id);
_loadWeapons();
}
}
}

View File

@@ -1,10 +1,3 @@
/// Écran d'historique des sessions.
///
/// Affiche la liste des sessions passées avec filtrage par type de cible.
/// Inclut un graphique d'évolution des scores (10 dernières sessions)
/// et permet la navigation vers le détail de chaque session.
library;
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
import 'package:intl/intl.dart';
@@ -29,6 +22,9 @@ class _HistoryScreenState extends State<HistoryScreen> {
bool _isLoading = true;
TargetType? _filterType;
// --- MODIFICATION : Remplacement de DateTime par DateTimeRange ---
DateTimeRange? _selectedDateRange;
@override
void initState() {
super.initState();
@@ -36,17 +32,43 @@ class _HistoryScreenState extends State<HistoryScreen> {
}
Future<void> _loadSessions() async {
if (!mounted) return;
setState(() => _isLoading = true);
try {
final repository = context.read<SessionRepository>();
final sessions = await repository.getAllSessions(
targetType: _filterType,
);
final sessions = await repository.getAllSessions();
if (mounted) {
setState(() {
_sessions = sessions;
// --- LOGIQUE DE FILTRAGE PAR PÉRIODE ---
if (_selectedDateRange != null) {
_sessions = _sessions.where((s) {
// On compare uniquement les dates (sans les heures) pour éviter les bugs
final sessionDate = DateTime(
s.createdAt.year,
s.createdAt.month,
s.createdAt.day,
);
final startDate = DateTime(
_selectedDateRange!.start.year,
_selectedDateRange!.start.month,
_selectedDateRange!.start.day,
);
final endDate = DateTime(
_selectedDateRange!.end.year,
_selectedDateRange!.end.month,
_selectedDateRange!.end.day,
);
return sessionDate.isAtSameMomentAs(startDate) ||
sessionDate.isAtSameMomentAs(endDate) ||
(sessionDate.isAfter(startDate) &&
sessionDate.isBefore(endDate));
}).toList();
}
_isLoading = false;
});
}
@@ -55,7 +77,7 @@ class _HistoryScreenState extends State<HistoryScreen> {
setState(() => _isLoading = false);
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(
content: Text('Erreur de chargement: $e'),
content: Text('Erreur: $e'),
backgroundColor: AppTheme.errorColor,
),
);
@@ -63,6 +85,40 @@ class _HistoryScreenState extends State<HistoryScreen> {
}
}
// --- MODIFICATION : Fonction DateRangePicker ---
Future<void> _pickDateRange() async {
final DateTimeRange? picked = await showDateRangePicker(
context: context,
initialDateRange: _selectedDateRange,
firstDate: DateTime(2020),
lastDate: DateTime.now().add(const Duration(days: 1)),
locale: const Locale('fr', 'FR'),
builder: (context, child) {
return Theme(
data: ThemeData.light().copyWith(
colorScheme: ColorScheme.light(
primary: AppTheme.primaryColor, // En-tête et sélection
onPrimary: Colors.white, // Texte sur en-tête/sélection
surface: Colors.white, // Fond du calendrier
onSurface: Colors.black87, // Texte des dates (Noir sur Blanc)
secondary: AppTheme.primaryColor,
),
dialogBackgroundColor: Colors.white,
textButtonTheme: TextButtonThemeData(
style: TextButton.styleFrom(foregroundColor: AppTheme.primaryColor),
),
),
child: child!,
);
},
);
if (picked != null) {
setState(() => _selectedDateRange = picked);
_loadSessions();
}
}
@override
Widget build(BuildContext context) {
return Scaffold(
@@ -71,55 +127,86 @@ class _HistoryScreenState extends State<HistoryScreen> {
actions: [
PopupMenuButton<TargetType?>(
icon: const Icon(Icons.filter_list),
tooltip: 'Filtrer',
onSelected: (type) {
setState(() => _filterType = type);
_loadSessions();
},
itemBuilder: (context) => [
const PopupMenuItem(
value: null,
child: Text('Tous'),
const PopupMenuItem(value: null, child: Text('Tous')),
...TargetType.values.map(
(type) =>
PopupMenuItem(value: type, child: Text(type.displayName)),
),
...TargetType.values.map((type) => PopupMenuItem(
value: type,
child: Text(type.displayName),
)),
],
),
],
),
body: _isLoading
? const Center(child: CircularProgressIndicator())
: _sessions.isEmpty
? _buildEmptyState()
: _buildContent(),
body: Column(
children: [
Expanded(
child: _isLoading
? const Center(child: CircularProgressIndicator())
: _sessions.isEmpty
? _buildEmptyState()
: _buildContent(),
),
_buildBottomFilterBar(),
],
),
);
}
Widget _buildBottomFilterBar() {
return Container(
padding: const EdgeInsets.symmetric(horizontal: 16, vertical: 12),
decoration: BoxDecoration(
color: Theme.of(context).cardColor,
boxShadow: const [
BoxShadow(
color: Colors.black26,
blurRadius: 4,
offset: Offset(0, -2),
),
],
),
child: SafeArea(
top: false,
child: Row(
children: [
Expanded(
child: OutlinedButton.icon(
onPressed: _pickDateRange,
icon: const Icon(Icons.date_range, size: 18),
label: Text(
_selectedDateRange == null
? 'Choisir une période'
: '${DateFormat('dd/MM/yy').format(_selectedDateRange!.start)} - ${DateFormat('dd/MM/yy').format(_selectedDateRange!.end)}',
),
),
),
if (_selectedDateRange != null)
IconButton(
icon: const Icon(Icons.close, color: AppTheme.errorColor),
onPressed: () {
setState(() => _selectedDateRange = null);
_loadSessions();
},
),
],
),
),
);
}
Widget _buildEmptyState() {
return Center(
child: Padding(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
child: Column(
mainAxisAlignment: MainAxisAlignment.center,
children: [
Icon(Icons.history, size: 64, color: Colors.grey[400]),
const SizedBox(height: 16),
Text(
'Aucune session',
style: Theme.of(context).textTheme.titleLarge,
),
const SizedBox(height: 8),
Text(
_filterType != null
? 'Aucune session de type ${_filterType!.displayName}'
: 'Commencez par analyser une cible',
style: TextStyle(color: Colors.grey[600]),
textAlign: TextAlign.center,
),
],
),
child: Column(
mainAxisAlignment: MainAxisAlignment.center,
children: [
Icon(Icons.history, size: 64, color: Colors.grey[400]),
const SizedBox(height: 16),
const Text('Aucune session sur cette période'),
],
),
);
}
@@ -129,49 +216,27 @@ class _HistoryScreenState extends State<HistoryScreen> {
onRefresh: _loadSessions,
child: CustomScrollView(
slivers: [
// Chart section
if (_sessions.length >= 2)
if (_sessions.length >= 2 && _selectedDateRange == null)
SliverToBoxAdapter(
child: Padding(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
child: HistoryChart(sessions: _sessions),
),
),
// Filter indicator
if (_filterType != null)
SliverToBoxAdapter(
child: Padding(
padding: const EdgeInsets.symmetric(horizontal: AppConstants.defaultPadding),
child: Chip(
label: Text('Filtre: ${_filterType!.displayName}'),
deleteIcon: const Icon(Icons.close, size: 18),
onDeleted: () {
setState(() => _filterType = null);
_loadSessions();
},
),
),
),
// Sessions list
SliverPadding(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
sliver: SliverList(
delegate: SliverChildBuilderDelegate(
(context, index) {
final session = _sessions[index];
return Padding(
padding: const EdgeInsets.only(bottom: 12),
child: SessionListItem(
session: session,
onTap: () => _openSessionDetail(session),
onDelete: () => _deleteSession(session),
),
);
},
childCount: _sessions.length,
),
delegate: SliverChildBuilderDelegate((context, index) {
final session = _sessions[index];
return Padding(
padding: const EdgeInsets.only(bottom: 12),
child: SessionListItem(
session: session,
onTap: () => _openSessionDetail(session),
onDelete: () => _deleteSession(session),
),
);
}, childCount: _sessions.length),
),
),
],
@@ -182,11 +247,9 @@ class _HistoryScreenState extends State<HistoryScreen> {
void _openSessionDetail(Session session) async {
await Navigator.push(
context,
MaterialPageRoute(
builder: (_) => SessionDetailScreen(session: session),
),
MaterialPageRoute(builder: (_) => SessionDetailScreen(session: session)),
);
_loadSessions(); // Refresh in case session was deleted
_loadSessions();
}
Future<void> _deleteSession(Session session) async {
@@ -204,7 +267,10 @@ class _HistoryScreenState extends State<HistoryScreen> {
),
TextButton(
onPressed: () => Navigator.pop(context, true),
child: const Text('Supprimer', style: TextStyle(color: AppTheme.errorColor)),
child: const Text(
'Supprimer',
style: TextStyle(color: AppTheme.errorColor),
),
),
],
),
@@ -215,20 +281,8 @@ class _HistoryScreenState extends State<HistoryScreen> {
final repository = context.read<SessionRepository>();
await repository.deleteSession(session.id);
_loadSessions();
if (mounted) {
ScaffoldMessenger.of(context).showSnackBar(
const SnackBar(content: Text('Session supprimee')),
);
}
} catch (e) {
if (mounted) {
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(
content: Text('Erreur: $e'),
backgroundColor: AppTheme.errorColor,
),
);
}
debugPrint('Erreur suppression: $e');
}
}
}

View File

@@ -1,10 +1,3 @@
/// Écran de détail d'une session.
///
/// Affiche la visualisation complète d'une session sauvegardée :
/// image de la cible avec overlay des impacts, scores recalculés,
/// statistiques de groupement et lien vers les statistiques détaillées.
library;
import 'dart:io';
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
@@ -12,6 +5,8 @@ import 'package:intl/intl.dart';
import '../../core/constants/app_constants.dart';
import '../../core/theme/app_theme.dart';
import '../../data/models/session.dart';
import '../../data/models/target_analysis.dart';
import '../../data/models/target_type.dart';
import '../../data/repositories/session_repository.dart';
import '../../services/score_calculator_service.dart';
import '../../services/grouping_analyzer_service.dart';
@@ -20,7 +15,7 @@ import '../analysis/widgets/score_card.dart';
import '../analysis/widgets/grouping_stats.dart';
import '../statistics/statistics_screen.dart';
class SessionDetailScreen extends StatelessWidget {
class SessionDetailScreen extends StatefulWidget {
final Session session;
const SessionDetailScreen({
@@ -28,33 +23,40 @@ class SessionDetailScreen extends StatelessWidget {
required this.session,
});
@override
State<SessionDetailScreen> createState() => _SessionDetailScreenState();
}
class _SessionDetailScreenState extends State<SessionDetailScreen> {
int _currentTargetIndex = 0;
@override
Widget build(BuildContext context) {
final scoreCalculator = context.read<ScoreCalculatorService>();
final groupingAnalyzer = context.read<GroupingAnalyzerService>();
final currentAnalysis = widget.session.analyses[_currentTargetIndex];
final scoreResult = scoreCalculator.calculateScores(
shots: session.shots,
targetType: session.targetType,
targetCenterX: session.targetCenterX ?? 0.5,
targetCenterY: session.targetCenterY ?? 0.5,
targetRadius: session.targetRadius ?? 0.4,
shots: currentAnalysis.shots,
targetType: currentAnalysis.targetType,
targetCenterX: currentAnalysis.targetCenterX ?? 0.5,
targetCenterY: currentAnalysis.targetCenterY ?? 0.5,
targetRadius: currentAnalysis.targetRadius ?? 0.4,
);
final groupingResult = groupingAnalyzer.analyzeGrouping(session.shots);
final groupingResult = groupingAnalyzer.analyzeGrouping(currentAnalysis.shots);
return Scaffold(
appBar: AppBar(
title: Text(
DateFormat('dd/MM/yyyy HH:mm').format(session.createdAt),
),
title: Text(widget.session.weapon),
actions: [
IconButton(
icon: const Icon(Icons.analytics),
onPressed: () => Navigator.push(
context,
MaterialPageRoute(
builder: (_) => StatisticsScreen(singleSession: session),
builder: (_) => StatisticsScreen(singleSession: widget.session),
),
),
tooltip: 'Statistiques',
@@ -70,15 +72,22 @@ class SessionDetailScreen extends StatelessWidget {
child: Column(
crossAxisAlignment: CrossAxisAlignment.stretch,
children: [
// Weapon and session overview
_buildSessionHeader(context),
// Target selector if multiple targets
if (widget.session.targetCount > 1)
_buildTargetSelector(),
// Target image with overlay
AspectRatio(
aspectRatio: 1,
child: Stack(
fit: StackFit.expand,
children: [
if (File(session.imagePath).existsSync())
if (File(currentAnalysis.imagePath).existsSync())
Image.file(
File(session.imagePath),
File(currentAnalysis.imagePath),
fit: BoxFit.contain,
)
else
@@ -89,14 +98,14 @@ class SessionDetailScreen extends StatelessWidget {
),
),
TargetOverlay(
shots: session.shots,
targetCenterX: session.targetCenterX ?? 0.5,
targetCenterY: session.targetCenterY ?? 0.5,
targetRadius: session.targetRadius ?? 0.4,
targetType: session.targetType,
groupingCenterX: session.groupingCenterX,
groupingCenterY: session.groupingCenterY,
groupingDiameter: session.groupingDiameter,
shots: currentAnalysis.shots,
targetCenterX: currentAnalysis.targetCenterX ?? 0.5,
targetCenterY: currentAnalysis.targetCenterY ?? 0.5,
targetRadius: currentAnalysis.targetRadius ?? 0.4,
targetType: currentAnalysis.targetType,
groupingCenterX: currentAnalysis.groupingCenterX,
groupingCenterY: currentAnalysis.groupingCenterY,
groupingDiameter: currentAnalysis.groupingDiameter,
),
],
),
@@ -107,31 +116,37 @@ class SessionDetailScreen extends StatelessWidget {
child: Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: [
// Session info
_buildSessionInfo(context),
// Analysis Info
_buildAnalysisInfo(context, currentAnalysis),
const SizedBox(height: 12),
// Score card
// Score card for current target
ScoreCard(
totalScore: session.totalScore,
shotCount: session.shotCount,
totalScore: currentAnalysis.totalScore,
shotCount: currentAnalysis.shotCount,
scoreResult: scoreResult,
targetType: session.targetType,
targetType: currentAnalysis.targetType,
),
const SizedBox(height: 12),
// Grouping stats
if (session.shotCount > 1)
// Grouping stats for current target
if (currentAnalysis.shotCount > 1)
GroupingStats(
groupingResult: groupingResult,
targetCenterX: session.targetCenterX ?? 0.5,
targetCenterY: session.targetCenterY ?? 0.5,
targetCenterX: currentAnalysis.targetCenterX ?? 0.5,
targetCenterY: currentAnalysis.targetCenterY ?? 0.5,
),
// Notes
if (session.notes != null && session.notes!.isNotEmpty) ...[
// Notes for current target
if (currentAnalysis.notes != null && currentAnalysis.notes!.isNotEmpty) ...[
const SizedBox(height: 12),
_buildNotesCard(context),
_buildNotesCard(context, currentAnalysis.notes!),
],
// Session notes
if (widget.session.notes != null && widget.session.notes!.isNotEmpty) ...[
const SizedBox(height: 12),
_buildNotesCard(context, widget.session.notes!, title: 'Notes de session'),
],
],
),
@@ -142,16 +157,83 @@ class SessionDetailScreen extends StatelessWidget {
);
}
Widget _buildSessionInfo(BuildContext context) {
Widget _buildSessionHeader(BuildContext context) {
return Container(
padding: const EdgeInsets.all(16),
color: AppTheme.primaryColor.withValues(alpha: 0.1),
child: Column(
children: [
Row(
mainAxisAlignment: MainAxisAlignment.spaceBetween,
children: [
Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: [
Text(
DateFormat('EEEE dd MMMM yyyy', 'fr_FR').format(widget.session.createdAt),
style: const TextStyle(fontWeight: FontWeight.bold),
),
Text(
DateFormat('HH:mm').format(widget.session.createdAt),
style: Theme.of(context).textTheme.bodySmall,
),
],
),
Column(
crossAxisAlignment: CrossAxisAlignment.end,
children: [
Text(
'Score Total: ${widget.session.totalScore}',
style: const TextStyle(fontWeight: FontWeight.bold, color: AppTheme.primaryColor),
),
Text(
'${widget.session.totalShots} tirs au total',
style: Theme.of(context).textTheme.bodySmall,
),
],
),
],
),
],
),
);
}
Widget _buildTargetSelector() {
return Container(
height: 50,
margin: const EdgeInsets.symmetric(vertical: 8),
child: ListView.builder(
scrollDirection: Axis.horizontal,
padding: const EdgeInsets.symmetric(horizontal: 16),
itemCount: widget.session.targetCount,
itemBuilder: (context, index) {
final isSelected = _currentTargetIndex == index;
return Padding(
padding: const EdgeInsets.only(right: 8),
child: ChoiceChip(
label: Text('Cible ${index + 1}'),
selected: isSelected,
onSelected: (selected) {
if (selected) {
setState(() => _currentTargetIndex = index);
}
},
),
);
},
),
);
}
Widget _buildAnalysisInfo(BuildContext context, TargetAnalysis analysis) {
return Card(
child: Padding(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
padding: const EdgeInsets.all(12),
child: Row(
children: [
Icon(
session.targetType == session.targetType
? Icons.track_changes
: Icons.person,
analysis.targetType == TargetType.concentric ? Icons.track_changes : Icons.person,
color: AppTheme.primaryColor,
),
const SizedBox(width: 12),
@@ -160,14 +242,11 @@ class SessionDetailScreen extends StatelessWidget {
crossAxisAlignment: CrossAxisAlignment.start,
children: [
Text(
session.targetType.displayName,
style: Theme.of(context).textTheme.titleMedium?.copyWith(
fontWeight: FontWeight.bold,
),
analysis.targetType.displayName,
style: const TextStyle(fontWeight: FontWeight.bold),
),
Text(
DateFormat('EEEE dd MMMM yyyy, HH:mm', 'fr_FR')
.format(session.createdAt),
'Cible ${_currentTargetIndex + 1} sur ${widget.session.targetCount}',
style: Theme.of(context).textTheme.bodySmall,
),
],
@@ -179,7 +258,7 @@ class SessionDetailScreen extends StatelessWidget {
);
}
Widget _buildNotesCard(BuildContext context) {
Widget _buildNotesCard(BuildContext context, String notes, {String title = 'Notes'}) {
return Card(
child: Padding(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
@@ -188,18 +267,16 @@ class SessionDetailScreen extends StatelessWidget {
children: [
Row(
children: [
const Icon(Icons.notes, color: AppTheme.primaryColor),
const Icon(Icons.notes, color: AppTheme.primaryColor, size: 20),
const SizedBox(width: 8),
Text(
'Notes',
style: Theme.of(context).textTheme.titleMedium?.copyWith(
fontWeight: FontWeight.bold,
),
title,
style: const TextStyle(fontWeight: FontWeight.bold),
),
],
),
const Divider(),
Text(session.notes!),
Text(notes),
],
),
),
@@ -211,7 +288,7 @@ class SessionDetailScreen extends StatelessWidget {
context: context,
builder: (context) => AlertDialog(
title: const Text('Supprimer'),
content: const Text('Voulez-vous vraiment supprimer cette session?'),
content: const Text('Voulez-vous vraiment supprimer cette session entière ?'),
actions: [
TextButton(
onPressed: () => Navigator.pop(context, false),
@@ -231,20 +308,17 @@ class SessionDetailScreen extends StatelessWidget {
if (confirmed == true && context.mounted) {
try {
final repository = context.read<SessionRepository>();
await repository.deleteSession(session.id);
await repository.deleteSession(widget.session.id);
if (context.mounted) {
ScaffoldMessenger.of(context).showSnackBar(
const SnackBar(content: Text('Session supprimee')),
const SnackBar(content: Text('Session supprimée')),
);
Navigator.pop(context);
}
} catch (e) {
if (context.mounted) {
ScaffoldMessenger.of(context).showSnackBar(
SnackBar(
content: Text('Erreur: $e'),
backgroundColor: AppTheme.errorColor,
),
SnackBar(content: Text('Erreur: $e'), backgroundColor: AppTheme.errorColor),
);
}
}

View File

@@ -155,7 +155,7 @@ class HistoryChart extends StatelessWidget {
return touchedSpots.map((spot) {
final session = displaySessions[spot.x.toInt()];
return LineTooltipItem(
'Score: ${session.totalScore}\n${session.shotCount} tirs',
'Score: ${session.totalScore}\n${session.totalShots} tirs',
const TextStyle(
color: Colors.white,
fontWeight: FontWeight.bold,

View File

@@ -1,15 +1,8 @@
/// Item de liste représentant une session.
///
/// Affiche les informations clés d'une session (date, type de cible,
/// score, nombre de tirs) avec miniature de l'image et actions de suppression.
library;
import 'dart:io';
import 'package:flutter/material.dart';
import 'package:intl/intl.dart';
import '../../../core/theme/app_theme.dart';
import '../../../data/models/session.dart';
import '../../../data/models/target_type.dart';
class SessionListItem extends StatelessWidget {
final Session session;
@@ -33,7 +26,7 @@ class SessionListItem extends StatelessWidget {
padding: const EdgeInsets.all(12),
child: Row(
children: [
// Thumbnail
// Thumbnail (from first target)
ClipRRect(
borderRadius: BorderRadius.circular(8),
child: SizedBox(
@@ -51,14 +44,14 @@ class SessionListItem extends StatelessWidget {
children: [
Row(
children: [
Icon(
_getTargetIcon(),
const Icon(
Icons.shield,
size: 16,
color: AppTheme.primaryColor,
),
const SizedBox(width: 4),
Text(
session.targetType.displayName,
session.weapon,
style: const TextStyle(
fontWeight: FontWeight.bold,
),
@@ -70,18 +63,19 @@ class SessionListItem extends StatelessWidget {
DateFormat('dd/MM/yyyy HH:mm').format(session.createdAt),
style: Theme.of(context).textTheme.bodySmall,
),
if (session.notes != null && session.notes!.isNotEmpty) ...[
const SizedBox(height: 2),
Text(
session.notes!,
style: Theme.of(context).textTheme.bodySmall?.copyWith(
color: Colors.grey[600],
fontStyle: FontStyle.italic,
const SizedBox(height: 4),
Row(
children: [
Icon(Icons.track_changes, size: 14, color: Colors.grey[600]),
const SizedBox(width: 4),
Text(
'${session.targetCount} cible(s) • ${session.distance}m',
style: Theme.of(context).textTheme.bodySmall?.copyWith(
color: Colors.grey[600],
),
),
maxLines: 1,
overflow: TextOverflow.ellipsis,
),
],
],
),
],
),
),
@@ -98,7 +92,7 @@ class SessionListItem extends StatelessWidget {
),
),
Text(
'${session.shotCount} tirs',
'${session.totalShots} tirs',
style: Theme.of(context).textTheme.bodySmall,
),
],
@@ -120,7 +114,9 @@ class SessionListItem extends StatelessWidget {
}
Widget _buildThumbnail() {
final file = File(session.imagePath);
if (session.analyses.isEmpty) return _buildPlaceholder();
final file = File(session.analyses.first.imagePath);
if (file.existsSync()) {
return Image.file(
@@ -137,18 +133,9 @@ class SessionListItem extends StatelessWidget {
return Container(
color: Colors.grey[200],
child: Icon(
_getTargetIcon(),
Icons.track_changes,
color: Colors.grey[400],
),
);
}
IconData _getTargetIcon() {
switch (session.targetType) {
case TargetType.concentric:
return Icons.track_changes;
case TargetType.silhouette:
return Icons.person;
}
}
}

View File

@@ -1,9 +1,3 @@
/// Écran d'accueil - Dashboard principal de l'application.
///
/// Affiche les statistiques globales (sessions, tirs, score moyen) et permet
/// la navigation vers les sections Statistiques, Historique et Nouvelle Analyse.
library;
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
import '../../core/constants/app_constants.dart';
@@ -12,7 +6,11 @@ import '../../data/repositories/session_repository.dart';
import '../capture/capture_screen.dart';
import '../history/history_screen.dart';
import '../statistics/statistics_screen.dart';
import 'package:fl_chart/fl_chart.dart';
import '../../data/models/session.dart';
import '../settings/settings_screen.dart';
import '../session/session_setup_screen.dart';
import '../session/session_provider.dart';
import 'widgets/stats_card.dart';
class HomeScreen extends StatefulWidget {
@@ -24,6 +22,7 @@ class HomeScreen extends StatefulWidget {
class _HomeScreenState extends State<HomeScreen> {
Map<String, dynamic>? _stats;
List<Session> _recentSessions = [];
bool _isLoading = true;
@override
@@ -35,9 +34,12 @@ class _HomeScreenState extends State<HomeScreen> {
Future<void> _loadStats() async {
final repository = context.read<SessionRepository>();
final stats = await repository.getStatistics();
final sessions = await repository.getAllSessions();
if (mounted) {
setState(() {
_stats = stats;
_recentSessions = sessions;
_isLoading = false;
});
}
@@ -47,18 +49,14 @@ class _HomeScreenState extends State<HomeScreen> {
Widget build(BuildContext context) {
return Scaffold(
appBar: AppBar(
leading: const Center(
child: Text(
'v1.0.2',
style: TextStyle(fontSize: 12, color: Colors.white70),
),
),
title: const Text('Bully'),
actions: [
IconButton(
icon: const Icon(Icons.analytics),
onPressed: () => _navigateToStatistics(context),
tooltip: 'Statistiques',
),
IconButton(
icon: const Icon(Icons.history),
onPressed: () => _navigateToHistory(context),
tooltip: 'Historique',
),
IconButton(
icon: const Icon(Icons.settings),
onPressed: () => _navigateToSettings(context),
@@ -74,15 +72,10 @@ class _HomeScreenState extends State<HomeScreen> {
child: Column(
crossAxisAlignment: CrossAxisAlignment.stretch,
children: [
// App logo/header
_buildHeader(),
const SizedBox(height: AppConstants.largePadding),
// Main action button
_buildMainActionButton(context),
const SizedBox(height: AppConstants.largePadding),
// Statistics section
if (_isLoading)
const Center(child: CircularProgressIndicator())
else if (_stats != null)
@@ -112,16 +105,16 @@ class _HomeScreenState extends State<HomeScreen> {
const SizedBox(height: 16),
Text(
'Analyse de Cibles',
style: Theme.of(context).textTheme.headlineMedium?.copyWith(
fontWeight: FontWeight.bold,
),
style: Theme.of(
context,
).textTheme.headlineMedium?.copyWith(fontWeight: FontWeight.bold),
),
const SizedBox(height: 8),
Text(
'Scannez vos cibles et analysez vos performances',
style: Theme.of(context).textTheme.bodyLarge?.copyWith(
color: AppTheme.textSecondary,
),
style: Theme.of(
context,
).textTheme.bodyLarge?.copyWith(color: AppTheme.textSecondary),
textAlign: TextAlign.center,
),
],
@@ -129,21 +122,103 @@ class _HomeScreenState extends State<HomeScreen> {
}
Widget _buildMainActionButton(BuildContext context) {
return ElevatedButton.icon(
onPressed: () => _navigateToCapture(context),
style: ElevatedButton.styleFrom(
backgroundColor: AppTheme.primaryColor,
foregroundColor: Colors.white,
padding: const EdgeInsets.symmetric(vertical: 20),
shape: RoundedRectangleBorder(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
final sessionProvider = context.watch<SessionProvider>();
final isSessionActive = sessionProvider.isSessionActive;
// Si aucune session n'est active, on affiche juste le bouton de départ habituel
if (!isSessionActive) {
return ElevatedButton.icon(
onPressed: () => _navigateToSessionSetup(context),
style: ElevatedButton.styleFrom(
backgroundColor: AppTheme.primaryColor,
foregroundColor: Colors.white,
padding: const EdgeInsets.symmetric(vertical: 20),
shape: RoundedRectangleBorder(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
),
),
),
icon: const Icon(Icons.add_a_photo, size: 28),
label: const Text(
'Nouvelle Analyse',
style: TextStyle(fontSize: 18, fontWeight: FontWeight.bold),
),
icon: const Icon(Icons.add_circle_outline, size: 28),
label: const Text(
'Nouvelle session',
style: TextStyle(fontSize: 18, fontWeight: FontWeight.bold),
),
);
}
// MODIFICATION : Alignement sur une seule ligne (80% / 20%) avec une croix pour l'annulation
return Row(
children: [
// 80% de largeur pour continuer la session
Expanded(
flex: 8,
child: ElevatedButton.icon(
onPressed: () => _navigateToSessionSetup(context),
style: ElevatedButton.styleFrom(
backgroundColor: AppTheme.secondaryColor,
foregroundColor: Colors.white,
padding: const EdgeInsets.symmetric(vertical: 20),
shape: RoundedRectangleBorder(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
),
),
icon: const Icon(Icons.play_circle_outline, size: 28),
label: const Text(
'Continuer la session',
style: TextStyle(fontSize: 18, fontWeight: FontWeight.bold),
maxLines: 1,
overflow: TextOverflow.ellipsis,
),
),
),
const SizedBox(width: 12),
// 20% de largeur pour terminer/annuler la session (Bouton Croix)
Expanded(
flex: 2,
child: OutlinedButton(
onPressed: () {
// Boite de dialogue de confirmation pour éviter les erreurs
showDialog(
context: context,
builder: (BuildContext context) {
return AlertDialog(
title: const Text('Terminer la session ?'),
content: const Text('Êtes-vous sûr de vouloir clôturer la session en cours ?'),
actions: [
TextButton(
onPressed: () => Navigator.pop(context),
child: const Text('ANNULER'),
),
TextButton(
onPressed: () {
Navigator.pop(context);
// Clôture propre de la session dans le State global
context.read<SessionProvider>().endSession();
ScaffoldMessenger.of(context).showSnackBar(
const SnackBar(
content: Text('Session terminée avec succès !'),
backgroundColor: AppTheme.successColor,
),
);
},
child: const Text('TERMINER', style: TextStyle(color: Colors.redAccent)),
),
],
);
},
);
},
style: OutlinedButton.styleFrom(
foregroundColor: Colors.redAccent,
side: const BorderSide(color: Colors.redAccent, width: 1.5),
padding: const EdgeInsets.symmetric(vertical: 20), // Même hauteur que le bouton continuer
shape: RoundedRectangleBorder(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
),
),
child: const Icon(Icons.close, size: 28),
),
),
],
);
}
@@ -153,14 +228,13 @@ class _HomeScreenState extends State<HomeScreen> {
children: [
Text(
'Statistiques',
style: Theme.of(context).textTheme.titleLarge?.copyWith(
fontWeight: FontWeight.bold,
),
style: Theme.of(
context,
).textTheme.titleLarge?.copyWith(fontWeight: FontWeight.bold),
),
const SizedBox(height: 12),
Row(
children: [
// --- BOUTON SESSIONS (Redirige vers Statistiques) ---
Expanded(
child: InkWell(
onTap: () => _navigateToStatistics(context),
@@ -174,7 +248,6 @@ class _HomeScreenState extends State<HomeScreen> {
),
),
const SizedBox(width: 12),
// Ce bouton reste statique (ou tu peux ajouter une action)
Expanded(
child: StatsCard(
icon: Icons.gps_fixed,
@@ -185,10 +258,40 @@ class _HomeScreenState extends State<HomeScreen> {
),
],
),
const SizedBox(height: 12),
Padding(
padding: const EdgeInsets.symmetric(vertical: 16.0),
child: Container(
height: 150,
padding: const EdgeInsets.all(16),
decoration: BoxDecoration(
color: Theme.of(context).cardColor,
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
boxShadow: [
BoxShadow(
color: Colors.black.withValues(alpha: 0.05),
blurRadius: 10,
offset: const Offset(0, 4),
),
],
),
child: _recentSessions.length < 2
? const Center(
child: Column(
mainAxisAlignment: MainAxisAlignment.center,
children: [
Icon(Icons.show_chart, size: 40, color: Colors.grey),
Text(
'Pas assez de données',
style: TextStyle(color: Colors.grey, fontSize: 12),
),
],
),
)
: _buildHomeTrendChart(),
),
),
Row(
children: [
// --- BOUTON SCORE MOYEN (Redirige vers Historique) ---
Expanded(
child: InkWell(
onTap: () => _navigateToHistory(context),
@@ -202,7 +305,6 @@ class _HomeScreenState extends State<HomeScreen> {
),
),
const SizedBox(width: 12),
// Ce bouton reste statique
Expanded(
child: StatsCard(
icon: Icons.emoji_events,
@@ -217,12 +319,19 @@ class _HomeScreenState extends State<HomeScreen> {
);
}
void _navigateToCapture(BuildContext context) async {
await Navigator.push(
context,
MaterialPageRoute(builder: (_) => const CaptureScreen()),
);
// Refresh stats when returning
void _navigateToSessionSetup(BuildContext context) async {
final sessionProvider = context.read<SessionProvider>();
if (sessionProvider.isSessionActive) {
await Navigator.push(
context,
MaterialPageRoute(builder: (_) => const CaptureScreen()),
);
} else {
await Navigator.push(
context,
MaterialPageRoute(builder: (_) => const SessionSetupScreen()),
);
}
_loadStats();
}
@@ -231,7 +340,6 @@ class _HomeScreenState extends State<HomeScreen> {
context,
MaterialPageRoute(builder: (_) => const HistoryScreen()),
);
// Refresh stats when returning
_loadStats();
}
@@ -240,14 +348,107 @@ class _HomeScreenState extends State<HomeScreen> {
context,
MaterialPageRoute(builder: (_) => const StatisticsScreen()),
);
// Refresh stats when returning
_loadStats();
}
void _navigateToSettings(BuildContext context) {
Navigator.push(
Widget _buildHomeTrendChart() {
final sorted = List<Session>.from(_recentSessions)
..sort((a, b) => a.createdAt.compareTo(b.createdAt));
final display =
sorted.length > 7 ? sorted.sublist(sorted.length - 7) : sorted;
return LineChart(
LineChartData(
gridData: FlGridData(
show: true,
drawVerticalLine: false,
getDrawingHorizontalLine: (value) => FlLine(
color: Colors.grey.withValues(alpha: 0.1),
strokeWidth: 1,
),
),
titlesData: FlTitlesData(
show: true,
rightTitles: const AxisTitles(sideTitles: SideTitles(showTitles: false)),
topTitles: const AxisTitles(sideTitles: SideTitles(showTitles: false)),
bottomTitles: AxisTitles(
sideTitles: SideTitles(
showTitles: true,
reservedSize: 22,
interval: 1,
getTitlesWidget: (value, meta) {
final index = value.toInt();
if (index < 0 || index >= display.length) return const SizedBox();
final date = display[index].createdAt;
return Padding(
padding: const EdgeInsets.only(top: 4.0),
child: Text(
'${date.day}/${date.month}',
style: TextStyle(
fontSize: 9,
color: Colors.grey.withValues(alpha: 0.8),
),
),
);
},
),
),
leftTitles: AxisTitles(
sideTitles: SideTitles(
showTitles: true,
reservedSize: 28,
getTitlesWidget: (value, meta) {
return Text(
value.toInt().toString(),
style: TextStyle(
fontSize: 9,
color: Colors.grey.withValues(alpha: 0.8),
),
);
},
),
),
),
borderData: FlBorderData(
show: true,
border: Border(
bottom: BorderSide(color: Colors.grey.withValues(alpha: 0.2)),
left: BorderSide(color: Colors.grey.withValues(alpha: 0.2)),
),
),
lineBarsData: [
LineChartBarData(
spots: display.asMap().entries.map((e) {
return FlSpot(e.key.toDouble(), e.value.averageScore);
}).toList(),
isCurved: true,
color: AppTheme.primaryColor,
barWidth: 3,
isStrokeCapRound: true,
dotData: FlDotData(
show: true,
getDotPainter: (spot, percent, barData, index) => FlDotCirclePainter(
radius: 3,
color: Colors.white,
strokeWidth: 2,
strokeColor: AppTheme.primaryColor,
),
),
belowBarData: BarAreaData(
show: true,
color: AppTheme.primaryColor.withValues(alpha: 0.1),
),
),
],
),
);
}
void _navigateToSettings(BuildContext context) async {
await Navigator.push(
context,
MaterialPageRoute(builder: (_) => const SettingsScreen()),
);
_loadStats();
}
}

View File

@@ -0,0 +1,54 @@
import 'package:flutter/foundation.dart';
import '../../data/models/session.dart';
import '../../data/models/target_analysis.dart';
import '../../data/models/weapon.dart';
class SessionProvider extends ChangeNotifier {
DateTime? _sessionDate;
DateTime? get sessionDate => _sessionDate;
String? _currentWeaponName;
String? _currentWeaponId;
int _shotsPerTarget = 5;
int _distance = 25;
String? _activeSessionId;
final List<TargetAnalysis> _currentAnalyses = [];
bool _isSessionActive = false;
String? get currentWeapon => _currentWeaponName;
String? get currentWeaponId => _currentWeaponId;
int get shotsPerTarget => _shotsPerTarget;
int get distance => _distance;
bool get isSessionActive => _isSessionActive;
String? get activeSessionId => _activeSessionId;
List<TargetAnalysis> get currentAnalyses => List.unmodifiable(_currentAnalyses);
int get totalSessionScore => _currentAnalyses.fold(0, (sum, a) => sum + a.totalScore);
int get targetCount => _currentAnalyses.length;
void startSession(String weaponName, int shots, String sessionId, {String? weaponId, int distance = 25, DateTime? date}) {
_currentWeaponName = weaponName;
_currentWeaponId = weaponId;
_shotsPerTarget = shots;
_distance = distance;
_sessionDate = date ?? DateTime.now();
_activeSessionId = sessionId;
_currentAnalyses.clear();
_isSessionActive = true;
notifyListeners();
}
void addAnalysis(TargetAnalysis analysis) {
_currentAnalyses.add(analysis);
notifyListeners();
}
void endSession() {
_isSessionActive = false;
_activeSessionId = null;
_currentWeaponId = null;
_currentWeaponName = null;
_currentAnalyses.clear();
_distance = 25;
notifyListeners();
}
}

View File

@@ -0,0 +1,326 @@
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
import 'package:intl/intl.dart'; // Utile pour formater proprement la date en français
import '../../core/constants/app_constants.dart';
import '../../core/theme/app_theme.dart';
import '../../data/models/weapon.dart';
import '../../data/repositories/session_repository.dart';
import 'session_provider.dart';
import '../capture/capture_screen.dart';
import '../garage/weapon_list_screen.dart';
class SessionSetupScreen extends StatefulWidget {
const SessionSetupScreen({super.key});
@override
State<SessionSetupScreen> createState() => _SessionSetupScreenState();
}
class _SessionSetupScreenState extends State<SessionSetupScreen> {
final _formKey = GlobalKey<FormState>();
int _shotsPerTarget = 5;
int _distance = 25;
List<Weapon> _availableWeapons = [];
Weapon? _selectedWeapon;
bool _isLoadingWeapons = true;
// AJOUT DE LA VARIABLE DATE : Initialisée par défaut à maintenant
DateTime _selectedDate = DateTime.now();
@override
void initState() {
super.initState();
_loadWeapons();
}
Future<void> _loadWeapons() async {
setState(() => _isLoadingWeapons = true);
final repository = context.read<SessionRepository>();
final weapons = await repository.getWeapons();
if (mounted) {
setState(() {
_availableWeapons = weapons;
if (_availableWeapons.isNotEmpty && _selectedWeapon == null) {
_selectedWeapon = _availableWeapons.first;
_updateSettingsForWeapon(_selectedWeapon!);
}
_isLoadingWeapons = false;
});
}
}
void _updateSettingsForWeapon(Weapon weapon) {
_shotsPerTarget = weapon.magazineCapacity;
_distance = (weapon.type == WeaponType.handgun) ? 25 : 50;
}
// Fonction pour ouvrir le calendrier si l'utilisateur clique sur le champ
Future<void> _pickDate() async {
final DateTime? picked = await showDatePicker(
context: context,
initialDate: _selectedDate,
firstDate: DateTime(2020),
lastDate: DateTime(2100),
locale: const Locale('fr', 'FR'), // Force le calendrier en français
);
if (picked != null && picked != _selectedDate) {
setState(() {
// On garde aussi l'heure actuelle lors du changement de date
final now = DateTime.now();
_selectedDate = DateTime(picked.year, picked.month, picked.day, now.hour, now.minute);
});
}
}
void _startSession() {
if (_formKey.currentState!.validate() && _selectedWeapon != null) {
final repository = context.read<SessionRepository>();
final sessionProvider = context.read<SessionProvider>();
final sessionId = repository.generateId();
// PASSE-PARTOUT : On envoie la session au provider.
// Note : Si ton `sessionProvider.startSession` ne prend pas encore la date en paramètre,
// pas de panique, la compilation passera car Dart tolère les arguments nommés optionnels
// s'ils sont déjà présents, ou tu pourras l'ajouter à ta méthode startSession.
sessionProvider.startSession(
_selectedWeapon!.displayName,
_shotsPerTarget,
sessionId,
weaponId: _selectedWeapon!.id,
distance: _distance,
date: _selectedDate,
);
Navigator.pushReplacement(
context,
MaterialPageRoute(builder: (_) => const CaptureScreen()),
);
}
}
@override
Widget build(BuildContext context) {
// Petit formatage sympa en français (ex: "27 mai 2026")
final String formattedDate = DateFormat('dd MMMM yyyy', 'fr_FR').format(_selectedDate);
return Scaffold(
appBar: AppBar(
title: const Text('Configuration de la session'),
),
body: _isLoadingWeapons
? const Center(child: CircularProgressIndicator())
: SingleChildScrollView(
padding: const EdgeInsets.all(AppConstants.defaultPadding),
child: Form(
key: _formKey,
child: Column(
crossAxisAlignment: CrossAxisAlignment.stretch,
children: [
const Text(
'Informations générales',
style: TextStyle(fontSize: 20, fontWeight: FontWeight.bold),
),
const SizedBox(height: 16),
// AFFICHAGE CONDITIONNEL : Armurerie vide vs Armurerie remplie
if (_availableWeapons.isEmpty)
Container(
padding: const EdgeInsets.all(16),
decoration: BoxDecoration(
color: AppTheme.errorColor.withValues(alpha: 0.1),
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
border: Border.all(color: AppTheme.errorColor.withValues(alpha: 0.5)),
),
child: Column(
children: [
const Icon(Icons.warning_amber_rounded, color: AppTheme.errorColor, size: 48),
const SizedBox(height: 8),
const Text(
'Ton armurerie est vide.',
style: TextStyle(fontWeight: FontWeight.bold),
textAlign: TextAlign.center,
),
const SizedBox(height: 4),
const Text(
'Tu dois d\'abord ajouter une arme pour pouvoir démarrer une session de tir.',
textAlign: TextAlign.center,
),
const SizedBox(height: 16),
ElevatedButton.icon(
onPressed: () {
Navigator.push(
context,
MaterialPageRoute(builder: (_) => const WeaponListScreen()),
).then((_) {
_loadWeapons();
});
},
icon: const Icon(Icons.add),
label: const Text('ALLER À MON ARMURERIE'),
),
],
),
)
else
Column(
children: [
DropdownButtonFormField<Weapon>(
value: _selectedWeapon,
decoration: InputDecoration(
labelText: 'Sélectionner une arme',
prefixIcon: const Icon(Icons.shield),
border: OutlineInputBorder(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
),
),
items: _availableWeapons.map((w) => DropdownMenuItem(
value: w,
child: Text(w.displayName),
)).toList(),
onChanged: (value) {
if (value != null) {
setState(() {
_selectedWeapon = value;
_updateSettingsForWeapon(value);
});
}
},
),
const SizedBox(height: 16),
// NOUVEAU CHAMP : Sélecteur de date interactif
InkWell(
onTap: _availableWeapons.isEmpty ? null : _pickDate,
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
child: IgnorePointer(
child: TextFormField(
decoration: InputDecoration(
labelText: 'Date de la session',
prefixIcon: const Icon(Icons.calendar_today),
border: OutlineInputBorder(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
),
),
controller: TextEditingController(text: formattedDate),
),
),
),
],
),
const SizedBox(height: 24),
// Distance selector
const Text(
'Distance de tir (mètres)',
style: TextStyle(fontSize: 16, fontWeight: FontWeight.w500),
),
const SizedBox(height: 8),
Row(
children: [
Expanded(
child: Slider(
value: _distance.toDouble(),
min: 5,
max: 300,
divisions: 59,
label: '${_distance}m',
onChanged: _availableWeapons.isEmpty ? null : (value) {
setState(() {
_distance = value.round();
});
},
),
),
Container(
width: 70,
height: 50,
alignment: Alignment.center,
decoration: BoxDecoration(
color: AppTheme.secondaryColor.withValues(alpha: 0.1),
borderRadius: BorderRadius.circular(8),
),
child: Text(
'${_distance}m',
style: const TextStyle(
fontSize: 18,
fontWeight: FontWeight.bold,
color: AppTheme.secondaryColor,
),
),
),
],
),
const SizedBox(height: 24),
// Shots per target
const Text(
'Nombre de balles pour la cible actuelle',
style: TextStyle(fontSize: 16, fontWeight: FontWeight.w500),
),
const SizedBox(height: 8),
Row(
children: [
Expanded(
child: Slider(
value: _shotsPerTarget.toDouble(),
min: 1,
max: 50,
divisions: 49,
label: '$_shotsPerTarget',
onChanged: _availableWeapons.isEmpty ? null : (value) {
setState(() {
_shotsPerTarget = value.round();
});
},
),
),
Container(
width: 50,
height: 50,
alignment: Alignment.center,
decoration: BoxDecoration(
color: AppTheme.primaryColor.withValues(alpha: 0.1),
borderRadius: BorderRadius.circular(8),
),
child: Text(
'$_shotsPerTarget',
style: const TextStyle(
fontSize: 18,
fontWeight: FontWeight.bold,
color: AppTheme.primaryColor,
),
),
),
],
),
const SizedBox(height: 48),
ElevatedButton.icon(
onPressed: (_availableWeapons.isEmpty || _selectedWeapon == null)
? null
: _startSession,
style: ElevatedButton.styleFrom(
backgroundColor: AppTheme.primaryColor,
foregroundColor: Colors.white,
padding: const EdgeInsets.symmetric(vertical: 16),
shape: RoundedRectangleBorder(
borderRadius: BorderRadius.circular(AppConstants.borderRadius),
),
),
icon: const Icon(Icons.play_arrow),
label: const Text(
'DÉMARRER LA SESSION',
style: TextStyle(fontSize: 16, fontWeight: FontWeight.bold),
),
),
],
),
),
),
);
}
}

View File

@@ -1,11 +1,14 @@
import 'package:flutter/material.dart';
import 'package:provider/provider.dart';
import 'package:flutter/services.dart';
import '../../core/theme/theme_provider.dart';
import 'dart:convert';
import 'package:crypto/crypto.dart';
import 'package:http/http.dart' as http;
import '../../core/constants/app_constants.dart';
import '../../core/theme/app_theme.dart';
import '../../services/wallet_identity_service.dart';
import '../garage/weapon_list_screen.dart';
class SettingsScreen extends StatefulWidget {
const SettingsScreen({super.key});
@@ -81,6 +84,49 @@ class _SettingsScreenState extends State<SettingsScreen> {
}
}
void _showThemeDialog() {
final themeProvider = context.read<ThemeProvider>();
showDialog(
context: context,
builder: (context) => AlertDialog(
title: const Text('Apparence'),
content: Column(
mainAxisSize: MainAxisSize.min,
children: [
_buildThemeOption(ThemeMode.system, 'Automatique', Icons.brightness_auto),
_buildThemeOption(ThemeMode.light, 'Clair', Icons.light_mode),
_buildThemeOption(ThemeMode.dark, 'Sombre', Icons.dark_mode),
],
),
actions: [
TextButton(
onPressed: () => Navigator.pop(context),
child: const Text('Fermer'),
),
],
),
);
}
Widget _buildThemeOption(ThemeMode mode, String label, IconData icon) {
final themeProvider = context.watch<ThemeProvider>();
final isSelected = themeProvider.themeMode == mode;
return ListTile(
leading: Icon(icon, color: isSelected ? AppTheme.primaryColor : null),
title: Text(label, style: TextStyle(
fontWeight: isSelected ? FontWeight.bold : FontWeight.normal,
color: isSelected ? AppTheme.primaryColor : null,
)),
trailing: isSelected ? const Icon(Icons.check, color: AppTheme.primaryColor) : null,
onTap: () {
themeProvider.setThemeMode(mode);
Navigator.pop(context);
},
);
}
void _showIdentityDialog() {
if (_identityPhrase == null) return;
@@ -218,14 +264,29 @@ class _SettingsScreenState extends State<SettingsScreen> {
subtitle: _identityPhrase != null ? 'Phrase de 15 mots générée' : 'Génération en cours...',
onTap: _showIdentityDialog,
),
Consumer<ThemeProvider>(
builder: (context, themeProvider, child) {
return _buildSettingsTile(
context: context,
icon: Icons.color_lens_outlined,
title: 'Apparence',
subtitle: themeProvider.themeModeName,
onTap: _showThemeDialog,
);
},
),
const SizedBox(height: 24),
_buildSectionHeader('Gestion'),
_buildSettingsTile(
context: context,
icon: Icons.color_lens_outlined,
title: 'Apparence',
subtitle: 'Thème clair/sombre (à venir)',
onTap: () {
ScaffoldMessenger.of(context).showSnackBar(
const SnackBar(content: Text('Fonctionnalité en développement')),
icon: Icons.shield_outlined,
title: 'Mon Armurerie',
subtitle: 'Gérer mes armes et équipements',
onTap: () async {
await Navigator.push(
context,
MaterialPageRoute(builder: (_) => const WeaponListScreen()),
);
},
),

File diff suppressed because it is too large Load Diff

View File

@@ -5,11 +5,13 @@ import 'package:intl/date_symbol_data_local.dart';
import 'package:provider/provider.dart';
import 'package:sqflite_common_ffi/sqflite_ffi.dart';
import 'app.dart';
import 'core/theme/theme_provider.dart';
import 'data/repositories/session_repository.dart';
import 'services/target_detection_service.dart';
import 'services/score_calculator_service.dart';
import 'services/grouping_analyzer_service.dart';
import 'services/image_processing_service.dart';
import 'features/session/session_provider.dart';
void main() async {
WidgetsFlutterBinding.ensureInitialized();
@@ -45,6 +47,8 @@ void main() async {
create: (_) => GroupingAnalyzerService(),
),
Provider<SessionRepository>(create: (_) => SessionRepository()),
ChangeNotifierProvider<ThemeProvider>(create: (_) => ThemeProvider()),
ChangeNotifierProvider<SessionProvider>(create: (_) => SessionProvider()),
],
child: const BullyApp(),
),

View File

@@ -0,0 +1,82 @@
import 'package:flutter/material.dart';
import 'features/home/home_screen.dart';
import 'features/history/history_screen.dart';
import 'features/statistics/statistics_screen.dart';
import 'features/garage/weapon_list_screen.dart';
import 'core/theme/app_theme.dart';
class MainNavigationHolder extends StatefulWidget {
const MainNavigationHolder({super.key});
@override
State<MainNavigationHolder> createState() => _MainNavigationHolderState();
}
class _MainNavigationHolderState extends State<MainNavigationHolder> {
int _selectedIndex = 0;
final List<Widget> _screens = [
const HomeScreen(),
const HistoryScreen(),
const StatisticsScreen(),
const WeaponListScreen(),
];
void _onItemTapped(int index) {
setState(() {
_selectedIndex = index;
});
}
@override
Widget build(BuildContext context) {
return Scaffold(
body: IndexedStack(
index: _selectedIndex,
children: _screens,
),
bottomNavigationBar: Container(
decoration: BoxDecoration(
boxShadow: [
BoxShadow(
color: Colors.black.withValues(alpha: 0.1),
blurRadius: 10,
offset: const Offset(0, -2),
),
],
),
child: BottomNavigationBar(
currentIndex: _selectedIndex,
onTap: _onItemTapped,
type: BottomNavigationBarType.fixed,
backgroundColor: Theme.of(context).cardColor,
selectedItemColor: AppTheme.primaryColor,
unselectedItemColor: Colors.grey,
showUnselectedLabels: true,
items: const [
BottomNavigationBarItem(
icon: Icon(Icons.home_outlined),
activeIcon: Icon(Icons.home),
label: 'Accueil',
),
BottomNavigationBarItem(
icon: Icon(Icons.history_outlined),
activeIcon: Icon(Icons.history),
label: 'Historique',
),
BottomNavigationBarItem(
icon: Icon(Icons.analytics_outlined),
activeIcon: Icon(Icons.analytics),
label: 'Stats',
),
BottomNavigationBarItem(
icon: Icon(Icons.shield_outlined),
activeIcon: Icon(Icons.shield),
label: 'Armurerie',
),
],
),
),
);
}
}

View File

@@ -1,4 +1,5 @@
import 'dart:convert';
import 'package:flutter/foundation.dart';
import 'dart:io';
import 'package:http/http.dart' as http;
import 'package:device_info_plus/device_info_plus.dart';
@@ -37,7 +38,7 @@ class AiExportService {
deviceData['os'] = 'Windows ${windowsInfo.majorVersion}.${windowsInfo.minorVersion}';
}
} catch (e) {
print('Erreur lors de la récupération des infos appareil: $e');
debugPrint('Erreur lors de la récupération des infos appareil: $e');
}
return deviceData;
@@ -131,15 +132,15 @@ class AiExportService {
if (response.statusCode == 200) {
final responseData = await response.stream.bytesToString();
print('Export réussi: $responseData');
debugPrint('Export réussi: $responseData');
return true;
} else {
final errorData = await response.stream.bytesToString();
print('Erreur d\'export: ${response.statusCode} - $errorData');
debugPrint('Erreur d\'export: ${response.statusCode} - $errorData');
return false;
}
} catch (e) {
print('Exception lors de l\'export: $e');
debugPrint('Exception lors de l\'export: $e');
return false;
}
}

View File

@@ -8,6 +8,7 @@ library;
import 'dart:io';
import 'dart:math' as math;
import 'package:image/image.dart' as img;
import 'package:flutter/foundation.dart';
import 'package:opencv_dart/opencv_dart.dart' as cv;
import 'package:path_provider/path_provider.dart';
@@ -562,8 +563,9 @@ class DistortionCorrectionService {
double maxArea = 0;
for (final contour in contours) {
if (contour.length < 5)
if (contour.length < 5) {
continue; // fitEllipse nécessite au moins 5 points
}
final area = cv.contourArea(contour);
if (area < 1000) continue; // Ignorer les trop petits bruits
@@ -636,7 +638,7 @@ class DistortionCorrectionService {
return outputPath;
} catch (e) {
// En cas d'erreur, retourner l'image originale
print('Erreur correction perspective cercles: $e');
debugPrint('Erreur correction perspective cercles: $e');
return imagePath;
}
}
@@ -761,7 +763,7 @@ class DistortionCorrectionService {
return outputPath;
} catch (e) {
print('Erreur correction perspective ovales: $e');
debugPrint('Erreur correction perspective ovales: $e');
return imagePath;
}
}
@@ -822,7 +824,7 @@ class DistortionCorrectionService {
}
if (concentricGroup.length < 2) {
print(
debugPrint(
"Pas assez de cercles concentriques pour le maillage, utilisation de la méthode simple.",
);
return await correctPerspectiveUsingOvals(imagePath);
@@ -950,7 +952,7 @@ class DistortionCorrectionService {
return outputPath;
} catch (e) {
print('Erreur correction perspective maillage concentrique: $e');
debugPrint('Erreur correction perspective maillage concentrique: $e');
return imagePath;
}
}
@@ -1012,7 +1014,7 @@ class DistortionCorrectionService {
// Fallback
if (bestQuad == null) {
print(
debugPrint(
"Aucun papier quadrilatère détecté, on utilise les cercles à la place.",
);
return await correctPerspectiveUsingCircles(imagePath);
@@ -1060,7 +1062,7 @@ class DistortionCorrectionService {
return outputPath;
} catch (e) {
print('Erreur correction perspective quadrilatère: $e');
debugPrint('Erreur correction perspective quadrilatère: $e');
// Fallback
return await correctPerspectiveUsingCircles(imagePath);
}

View File

@@ -0,0 +1,54 @@
import 'package:google_mlkit_document_scanner/google_mlkit_document_scanner.dart';
/// Résultat du scan de document.
class DocumentScanResult {
/// Chemin de l'image redressée (de face), ou null si l'utilisateur a annulé.
final String? imagePath;
/// true si un scan a bien été produit.
bool get success => imagePath != null;
const DocumentScanResult(this.imagePath);
}
/// Service qui lance le scanner de documents Google ML Kit.
///
/// Le scanner ouvre une UI plein écran fournie par Google Play Services :
/// caméra, détection des bords de la feuille en direct, recadrage manuel des
/// 4 coins, puis renvoie l'image REDRESSÉE de face. Idéal pour une cible de
/// tir, qui est imprimée sur un carton/feuille rectangulaire.
///
/// NOTE : disponible uniquement sur Android (fonctionnalité ML Kit en bêta).
class DocumentScannerService {
/// Lance le scanner et renvoie le chemin de l'image redressée.
///
/// [pageLimit] est fixé à 1 (une seule cible par scan).
/// On désactive l'import galerie ici car la galerie est gérée séparément.
///
/// IMPORTANT : on utilise [ScannerMode.base] et NON [ScannerMode.full].
/// - `full`/`filter` appliquent des filtres "document" (noir & blanc,
/// rehaussement type photocopie) → détruit les couleurs de la cible.
/// - `base` ne fait QUE le recadrage + le redressement de perspective
/// (mise de face), en conservant l'image en couleurs réelles. C'est
/// indispensable pour pouvoir détecter ensuite les impacts.
Future<DocumentScanResult> scanTarget() async {
final options = DocumentScannerOptions(
mode: ScannerMode.base, // redressement seul, sans filtre couleur
pageLimit: 1,
isGalleryImport: false,
);
final scanner = DocumentScanner(options: options);
try {
final DocumentScanningResult result = await scanner.scanDocument();
final images = result.images;
if (images.isEmpty) {
return const DocumentScanResult(null);
}
return DocumentScanResult(images.first);
} finally {
// Libère les ressources natives du scanner.
await scanner.close();
}
}
}

View File

@@ -1,27 +1,14 @@
/// Service de recadrage d'images.
///
/// Permet de recadrer une image en format carré (1:1) et de la sauvegarder
/// dans un fichier temporaire pour utilisation ultérieure.
library;
import 'dart:isolate'; // AJOUT
import 'dart:io';
import 'dart:math' as math;
import 'package:image/image.dart' as img;
import 'package:path_provider/path_provider.dart';
import 'package:uuid/uuid.dart';
/// Représente une zone de recadrage normalisée (0.0 à 1.0)
class CropRect {
/// Position X du coin supérieur gauche (0.0 à 1.0)
final double x;
/// Position Y du coin supérieur gauche (0.0 à 1.0)
final double y;
/// Largeur de la zone (0.0 à 1.0)
final double width;
/// Hauteur de la zone (0.0 à 1.0)
final double height;
const CropRect({
@@ -35,97 +22,157 @@ class CropRect {
String toString() => 'CropRect(x: $x, y: $y, w: $width, h: $height)';
}
/// Service pour recadrer les images
// AJOUT : Paramètres passés à l'Isolate (tout doit être sérialisable)
class _CropParams {
final String sourcePath;
final double cropX;
final double cropY;
final double cropWidth;
final double cropHeight;
final double rotationDegrees;
final int outputSize;
final String outputPath;
_CropParams({
required this.sourcePath,
required this.cropX,
required this.cropY,
required this.cropWidth,
required this.cropHeight,
required this.rotationDegrees,
required this.outputSize,
required this.outputPath,
});
}
// AJOUT : Fonction statique exécutée dans l'Isolate (doit être top-level ou static)
void _cropIsolateEntry(_CropParams params) {
final file = File(params.sourcePath);
final bytes = file.readAsBytesSync();
img.Image? originalImage = img.decodeImage(bytes);
if (originalImage == null) {
throw Exception('Impossible de décoder l\'image: ${params.sourcePath}');
}
// ── OPTIMISATION MAJEURE : pré-réduction avant rotation ───────────────────
// La rotation (copyRotate) est l'opération la plus lourde du package `image`
// et son coût est proportionnel au nombre de pixels. Comme la sortie finale
// ne fait que `outputSize` px, on n'a aucun intérêt à faire pivoter une image
// de plusieurs dizaines de mégapixels.
//
// On réduit donc l'image source à une "taille de travail" juste suffisante
// AVANT toute rotation/crop. Le crop garde ~85% du cadre, donc on laisse une
// marge : workMax = outputSize / 0.7 couvre largement le besoin sans perte
// visible. Les coordonnées de crop étant relatives (0..1), elles restent
// valables quelle que soit l'échelle.
final int workMax = (params.outputSize / 0.7).round();
final int longestSide = math.max(originalImage.width, originalImage.height);
if (longestSide > workMax) {
if (originalImage.width >= originalImage.height) {
originalImage = img.copyResize(
originalImage,
width: workMax,
interpolation: img.Interpolation.linear,
);
} else {
originalImage = img.copyResize(
originalImage,
height: workMax,
interpolation: img.Interpolation.linear,
);
}
}
// Rotation si nécessaire — LINEAR au lieu de CUBIC pour la vitesse
// (désormais appliquée sur une image déjà réduite → beaucoup plus rapide)
if (params.rotationDegrees != 0.0) {
originalImage = img.copyRotate(
originalImage,
angle: params.rotationDegrees,
interpolation: img.Interpolation.linear, // OPTIMISATION : linear >> cubic en vitesse
);
}
// Recadrage
final srcX = (params.cropX * originalImage.width).round();
final srcY = (params.cropY * originalImage.height).round();
final srcWidth = (params.cropWidth * originalImage.width).round();
final srcHeight = (params.cropHeight * originalImage.height).round();
final clampedX = srcX.clamp(0, originalImage.width - 1);
final clampedY = srcY.clamp(0, originalImage.height - 1);
final clampedWidth = math.min(srcWidth, originalImage.width - clampedX);
final clampedHeight = math.min(srcHeight, originalImage.height - clampedY);
img.Image cropped = img.copyCrop(
originalImage,
x: clampedX,
y: clampedY,
width: clampedWidth,
height: clampedHeight,
);
// Redimensionnement — LINEAR au lieu de CUBIC
if (cropped.width != params.outputSize || cropped.height != params.outputSize) {
cropped = img.copyResize(
cropped,
width: params.outputSize,
height: params.outputSize,
interpolation: img.Interpolation.linear, // OPTIMISATION : linear >> cubic en vitesse
);
}
// Encodage JPEG qualité 85 au lieu de 90 (gain de vitesse non négligeable)
final outputFile = File(params.outputPath);
outputFile.writeAsBytesSync(img.encodeJpg(cropped, quality: 85));
}
class ImageCropService {
final Uuid _uuid = const Uuid();
/// Taille de sortie maximale pour les images recadrées
static const int maxOutputSize = 1024;
/// Recadre une image en format carré
///
/// [sourcePath] - Chemin vers l'image source
/// [cropRect] - Zone de recadrage normalisée (0.0 à 1.0)
/// [outputSize] - Taille de sortie en pixels (carré)
///
/// Retourne le chemin vers l'image recadrée dans le dossier temporaire
Future<String> cropToSquare(
String sourcePath,
CropRect cropRect, {
int outputSize = maxOutputSize,
}) async {
// Charger l'image source
final file = File(sourcePath);
final bytes = await file.readAsBytes();
final originalImage = img.decodeImage(bytes);
String sourcePath,
CropRect cropRect, {
double rotationDegrees = 0.0,
int outputSize = maxOutputSize,
}) async {
final tempDir = await getTemporaryDirectory();
final outputPath = '${tempDir.path}/cropped_${_uuid.v4()}.jpg';
if (originalImage == null) {
throw Exception('Impossible de décoder l\'image: $sourcePath');
}
// Calculer les coordonnées en pixels
final srcX = (cropRect.x * originalImage.width).round();
final srcY = (cropRect.y * originalImage.height).round();
final srcWidth = (cropRect.width * originalImage.width).round();
final srcHeight = (cropRect.height * originalImage.height).round();
// S'assurer que les dimensions sont valides
final clampedX = srcX.clamp(0, originalImage.width - 1);
final clampedY = srcY.clamp(0, originalImage.height - 1);
final clampedWidth = math.min(srcWidth, originalImage.width - clampedX);
final clampedHeight = math.min(srcHeight, originalImage.height - clampedY);
// Recadrer l'image
img.Image cropped = img.copyCrop(
originalImage,
x: clampedX,
y: clampedY,
width: clampedWidth,
height: clampedHeight,
final params = _CropParams(
sourcePath: sourcePath,
cropX: cropRect.x,
cropY: cropRect.y,
cropWidth: cropRect.width,
cropHeight: cropRect.height,
rotationDegrees: rotationDegrees,
outputSize: outputSize,
outputPath: outputPath,
);
// Redimensionner à la taille de sortie si nécessaire
if (cropped.width != outputSize || cropped.height != outputSize) {
cropped = img.copyResize(
cropped,
width: outputSize,
height: outputSize,
interpolation: img.Interpolation.cubic,
);
}
// Sauvegarder dans le dossier temporaire
final tempDir = await getTemporaryDirectory();
final fileName = 'cropped_${_uuid.v4()}.jpg';
final outputPath = '${tempDir.path}/$fileName';
final outputFile = File(outputPath);
await outputFile.writeAsBytes(img.encodeJpg(cropped, quality: 90));
// OPTIMISATION CLEF : Tout le traitement lourd dans un Isolate séparé
// → le thread UI reste fluide pendant le calcul
await Isolate.run(() => _cropIsolateEntry(params));
return outputPath;
}
/// Calcule la zone de recadrage carrée maximale centrée sur l'image
///
/// [imageWidth] - Largeur de l'image en pixels
/// [imageHeight] - Hauteur de l'image en pixels
///
/// Retourne un CropRect normalisé pour un carré centré
CropRect getDefaultSquareCrop(int imageWidth, int imageHeight) {
final aspectRatio = imageWidth / imageHeight;
if (aspectRatio > 1) {
// Image plus large que haute - centrer horizontalement
final squareWidth = imageHeight / imageWidth;
final x = (1 - squareWidth) / 2;
return CropRect(x: x, y: 0, width: squareWidth, height: 1);
} else if (aspectRatio < 1) {
// Image plus haute que large - centrer verticalement
final squareHeight = imageWidth / imageHeight;
final y = (1 - squareHeight) / 2;
return CropRect(x: 0, y: y, width: 1, height: squareHeight);
} else {
// Déjà carré
return const CropRect(x: 0, y: 0, width: 1, height: 1);
}
}
@@ -147,7 +194,39 @@ class ImageCropService {
}
}
} catch (e) {
// Ignorer les erreurs de nettoyage
// Ignorer les erreurs
}
}
/// Coupe automatiquement une photo brute de l'appareil photo en carré
/// calé sur la position haute du viseur de l'écran.
Future<String> cropRawCameraToSquare(String sourcePath) async {
final file = File(sourcePath);
final bytes = await file.readAsBytes();
final originalImage = img.decodeImage(bytes);
if (originalImage == null) return sourcePath;
final int imgW = originalImage.width;
final int imgH = originalImage.height;
final int cropSizePixels = (math.min(imgW, imgH) * 0.85).round();
final int x = ((imgW - cropSizePixels) / 2).round();
final int y = ((imgH - cropSizePixels) / 2).round();
final squareImage = img.copyCrop(
originalImage,
x: x.clamp(0, imgW - 1),
y: y.clamp(0, imgH - 1),
width: cropSizePixels,
height: cropSizePixels,
);
final tempDir = await getTemporaryDirectory();
final outputPath = '${tempDir.path}/camera_square_${DateTime.now().millisecondsSinceEpoch}.jpg';
await File(outputPath).writeAsBytes(img.encodeJpg(squareImage, quality: 85));
return outputPath;
}
}

View File

@@ -1,4 +1,5 @@
import 'dart:io';
import 'package:flutter/foundation.dart';
import 'dart:math' as math;
import 'package:image/image.dart' as img;
@@ -189,7 +190,7 @@ class ImageProcessingService {
);
}).toList();
} catch (e) {
print('Error detecting impacts: $e');
debugPrint('Error detecting impacts: $e');
return [];
}
}
@@ -236,14 +237,14 @@ class ImageProcessingService {
final fillRatios = <double>[];
final thresholds = <double>[];
print('Analyzing ${references.length} reference impacts...');
debugPrint('Analyzing ${references.length} reference impacts...');
for (int refIndex = 0; refIndex < references.length; refIndex++) {
final ref = references[refIndex];
final centerX = (ref.x * width).round().clamp(0, width - 1);
final centerY = (ref.y * height).round().clamp(0, height - 1);
print('Reference $refIndex at ($centerX, $centerY)');
debugPrint('Reference $refIndex at ($centerX, $centerY)');
// AMÉLIORATION : Recherche du point le plus sombre dans une zone plus large
int darkestX = centerX;
@@ -275,7 +276,7 @@ class ImageProcessingService {
if (darkestLum < 50 && r > 5) break;
}
print(' Darkest point at ($darkestX, $darkestY), lum=$darkestLum');
debugPrint(' Darkest point at ($darkestX, $darkestY), lum=$darkestLum');
// Now find the blob at the darkest point using adaptive threshold
final blobResult = _findBlobAtPoint(blurred, darkestX, darkestY, width, height);
@@ -286,15 +287,15 @@ class ImageProcessingService {
circularities.add(blobResult.circularity);
fillRatios.add(blobResult.fillRatio);
thresholds.add(blobResult.threshold);
print(' Found blob: size=${blobResult.size}, circ=${blobResult.circularity.toStringAsFixed(2)}, '
debugPrint(' Found blob: size=${blobResult.size}, circ=${blobResult.circularity.toStringAsFixed(2)}, '
'fill=${blobResult.fillRatio.toStringAsFixed(2)}, threshold=${blobResult.threshold.toStringAsFixed(0)}');
} else {
print(' No valid blob found at this reference');
debugPrint(' No valid blob found at this reference');
}
}
if (luminances.isEmpty) {
print('ERROR: No valid blobs found from any reference!');
debugPrint('ERROR: No valid blobs found from any reference!');
return null;
}
@@ -329,11 +330,11 @@ class ImageProcessingService {
avgDarkThreshold: avgThreshold,
);
print('Learned characteristics: $result');
debugPrint('Learned characteristics: $result');
return result;
} catch (e) {
print('Error analyzing reference impacts: $e');
debugPrint('Error analyzing reference impacts: $e');
return null;
}
}
@@ -680,7 +681,7 @@ class ImageProcessingService {
// Calculate minimum fill ratio - impacts pleins
final minFillRatio = (characteristics.avgFillRatio - 0.2).clamp(0.35, 0.85);
print('Detection params: thresholds=$thresholds, size=$minSize-$maxSize, '
debugPrint('Detection params: thresholds=$thresholds, size=$minSize-$maxSize, '
'circ>=$effectiveMinCircularity, fill>=$minFillRatio');
// Détecter avec plusieurs seuils et combiner les résultats
@@ -722,7 +723,7 @@ class ImageProcessingService {
return true;
}).toList();
print('Found ${filteredBlobs.length} impacts after filtering (from ${mergedBlobs.length} merged)');
debugPrint('Found ${filteredBlobs.length} impacts after filtering (from ${mergedBlobs.length} merged)');
// Convert to relative coordinates
return filteredBlobs.map((blob) {
@@ -733,7 +734,7 @@ class ImageProcessingService {
);
}).toList();
} catch (e) {
print('Error detecting impacts from references: $e');
debugPrint('Error detecting impacts from references: $e');
return [];
}
}
@@ -776,50 +777,6 @@ class ImageProcessingService {
return merged;
}
/// Detect dark spots with adaptive luminance range
List<_Blob> _detectDarkSpotsAdaptive(
img.Image image,
int minLuminance,
int maxLuminance,
int minSize,
int maxSize, {
double minCircularity = 0.5,
double minFillRatio = 0.5,
}) {
final width = image.width;
final height = image.height;
// Create binary mask of pixels within luminance range
final mask = List.generate(height, (_) => List.filled(width, false));
for (int y = 0; y < height; y++) {
for (int x = 0; x < width; x++) {
final pixel = image.getPixel(x, y);
final luminance = img.getLuminance(pixel);
mask[y][x] = luminance >= minLuminance && luminance <= maxLuminance;
}
}
// Find connected components
final visited = List.generate(height, (_) => List.filled(width, false));
final blobs = <_Blob>[];
for (int y = 0; y < height; y++) {
for (int x = 0; x < width; x++) {
if (mask[y][x] && !visited[y][x]) {
final blob = _floodFill(mask, visited, x, y, width, height);
if (blob.size >= minSize &&
blob.size <= maxSize &&
blob.circularity >= minCircularity &&
blob.fillRatio >= minFillRatio) {
blobs.add(blob);
}
}
}
}
return _filterOverlappingBlobs(blobs);
}
/// Detect dark spots in a grayscale image using blob detection
List<_Blob> _detectDarkSpots(

View File

@@ -0,0 +1,162 @@
import 'dart:async';
import 'dart:math' as math;
import 'package:sensors_plus/sensors_plus.dart';
/// Statut de parallélisme retourné en temps réel.
enum ParallelismStatus {
/// Pas encore de données capteur disponibles.
unknown,
/// L'appareil est bien parallèle à la cible.
aligned,
/// L'appareil est trop incliné.
misaligned,
}
/// Données de parallélisme calculées à chaque frame capteur.
class ParallelismData {
final ParallelismStatus status;
/// Inclinaison avant/arrière en degrés (0° = parfaitement vertical).
final double pitchDegrees;
/// Inclinaison gauche/droite en degrés (0° = parfaitement droit).
final double rollDegrees;
const ParallelismData({
required this.status,
required this.pitchDegrees,
required this.rollDegrees,
});
bool get isAligned => status == ParallelismStatus.aligned;
@override
String toString() =>
'ParallelismData(status: $status, pitch: ${pitchDegrees.toStringAsFixed(1)}°, roll: ${rollDegrees.toStringAsFixed(1)}°)';
}
/// Service de détection du parallélisme par accéléromètre.
///
/// Implémente une hystérésis à deux seuils pour éviter le clignotement :
///
/// État actuel = misaligned → passe à aligned si angle < [alignThreshold]
/// État actuel = aligned → passe à misaligned si angle > [misalignThreshold]
///
/// Cela crée une "zone de confort" entre les deux seuils où le statut
/// ne change pas — le vert reste vert même si la main tremble légèrement.
///
/// Valeurs par défaut recommandées :
/// alignThreshold = 15° (seuil d'entrée dans le vert — assez souple)
/// misalignThreshold = 22° (seuil de sortie du vert — tolérant au tremblement)
class ParallelismService {
/// Angle max pour passer de misaligned → aligned.
final double alignThreshold;
/// Angle à dépasser pour passer de aligned → misaligned.
/// Doit être > alignThreshold pour créer la zone d'hystérésis.
final double misalignThreshold;
StreamSubscription<AccelerometerEvent>? _subscription;
final StreamController<ParallelismData> _controller =
StreamController<ParallelismData>.broadcast();
/// État interne mémorisé entre deux frames (cœur de l'hystérésis).
ParallelismStatus _currentStatus = ParallelismStatus.unknown;
ParallelismService({
this.alignThreshold = 25.0,
this.misalignThreshold = 32.0,
}) : assert(
misalignThreshold > alignThreshold,
'misalignThreshold doit être supérieur à alignThreshold',
);
Stream<ParallelismData> get stream => _controller.stream;
void start() {
if (_subscription != null) return;
_subscription = accelerometerEventStream(
samplingPeriod: SensorInterval.normalInterval, // ~50 ms
).listen(
_onAccelerometerEvent,
onError: (_) {
// Simulateur ou capteur absent — on reste en "unknown" sans bloquer l'UI
if (!_controller.isClosed) {
_currentStatus = ParallelismStatus.unknown;
_controller.add(const ParallelismData(
status: ParallelismStatus.unknown,
pitchDegrees: 0,
rollDegrees: 0,
));
}
},
);
}
void stop() {
_subscription?.cancel();
_subscription = null;
_currentStatus = ParallelismStatus.unknown;
}
void dispose() {
stop();
_controller.close();
}
void _onAccelerometerEvent(AccelerometerEvent event) {
if (_controller.isClosed) return;
final double gx = event.x;
final double gy = event.y;
final double gz = event.z;
final double magnitude = math.sqrt(gx * gx + gy * gy + gz * gz);
if (magnitude < 1.0) return; // Données aberrantes
// Normalisation par la magnitude réelle (indépendant de g exact)
final double nx = gx / magnitude;
final double ny = gy / magnitude;
final double nz = gz / magnitude;
// Pitch et Roll mesurent l'inclinaison autour de chaque axe.
final double pitchDeg = math.asin(nz.clamp(-1.0, 1.0)) * (180.0 / math.pi);
final double rollDeg = math.asin(nx.clamp(-1.0, 1.0)) * (180.0 / math.pi);
// Le critère de couleur = le PIRE des deux angles affichés à l'écran.
// Ainsi ce que voit l'utilisateur (Pitch / Roll) correspond exactement
// à la décision vert/orange : à 2° d'écart, on est largement dans le vert.
final double worstAngle = math.max(pitchDeg.abs(), rollDeg.abs());
// ── Hystérésis ──────────────────────────────────────────────────────────
// Premier appel : on décide selon alignThreshold uniquement
if (_currentStatus == ParallelismStatus.unknown) {
_currentStatus = worstAngle <= alignThreshold
? ParallelismStatus.aligned
: ParallelismStatus.misaligned;
}
// Déjà misaligned → devient aligned seulement si on passe sous alignThreshold
else if (_currentStatus == ParallelismStatus.misaligned) {
if (worstAngle <= alignThreshold) {
_currentStatus = ParallelismStatus.aligned;
}
}
// Déjà aligned → devient misaligned seulement si on dépasse misalignThreshold
else if (_currentStatus == ParallelismStatus.aligned) {
if (worstAngle > misalignThreshold) {
_currentStatus = ParallelismStatus.misaligned;
}
// Entre alignThreshold et misalignThreshold → on garde le vert, on ne change rien
}
// ────────────────────────────────────────────────────────────────────────
_controller.add(ParallelismData(
status: _currentStatus,
pitchDegrees: pitchDeg,
rollDegrees: rollDeg,
));
}
}

View File

@@ -66,25 +66,12 @@ class PrecisionStats {
/// Standard deviation statistics
class StdDevStats {
/// Standard deviation of X positions
final double stdDevX;
/// Standard deviation of Y positions
final double stdDevY;
/// Combined standard deviation (radial)
final double stdDevRadial;
/// Standard deviation of scores
final double stdDevScore;
/// Mean X position
final double meanX;
/// Mean Y position
final double meanY;
/// Mean score
final double meanScore;
const StdDevStats({
@@ -98,18 +85,11 @@ class StdDevStats {
});
}
/// Regional distribution (quadrants or sectors)
/// Regional distribution
class RegionalStats {
/// Shot distribution by quadrant (top-left, top-right, bottom-left, bottom-right)
final Map<String, int> quadrantDistribution;
/// Shot distribution by sector (N, NE, E, SE, S, SW, W, NW, Center)
final Map<String, int> sectorDistribution;
/// Dominant direction (where most shots land)
final String dominantDirection;
/// Bias offset from center
final double biasX;
final double biasY;
@@ -157,16 +137,16 @@ class StatisticsService {
SessionStatistics calculateStatistics(
List<Session> sessions, {
StatsPeriod period = StatsPeriod.all,
double targetCenterX = 0.5,
double targetCenterY = 0.5,
}) {
// Filter sessions by period
final filteredSessions = _filterByPeriod(sessions, period);
// Collect all shots
// Collect all shots from all analyses in all sessions
final allShots = <Shot>[];
for (final session in filteredSessions) {
allShots.addAll(session.shots);
for (final analysis in session.analyses) {
allShots.addAll(analysis.shots);
}
}
if (allShots.isEmpty) {
@@ -183,14 +163,14 @@ class StatisticsService {
// Calculate heat map
final heatMap = _calculateHeatMap(allShots, gridSize: 5);
// Calculate precision
final precision = _calculatePrecision(allShots, targetCenterX, targetCenterY);
// Calculate precision (using relative center 0.5, 0.5)
final precision = _calculatePrecision(allShots, 0.5, 0.5);
// Calculate standard deviation
final stdDev = _calculateStdDev(allShots);
// Calculate regional distribution
final regional = _calculateRegional(allShots, targetCenterX, targetCenterY);
final regional = _calculateRegional(allShots, 0.5, 0.5);
return SessionStatistics(
totalShots: totalShots,
@@ -224,20 +204,13 @@ class StatisticsService {
/// Calculate heat map
HeatMap _calculateHeatMap(List<Shot> shots, {int gridSize = 5}) {
// Initialize grid
final grid = List.generate(
gridSize,
(_) => List.generate(gridSize, (_) => <Shot>[]),
);
// Assign shots to grid cells
final grid = List.generate(gridSize, (_) => List.generate(gridSize, (_) => <Shot>[]));
for (final shot in shots) {
final col = (shot.x * gridSize).floor().clamp(0, gridSize - 1);
final row = (shot.y * gridSize).floor().clamp(0, gridSize - 1);
grid[row][col].add(shot);
}
// Find max count for normalization
int maxCount = 0;
for (final row in grid) {
for (final cell in row) {
@@ -245,16 +218,12 @@ class StatisticsService {
}
}
// Create heat zones
final zones = <List<HeatZone>>[];
for (int row = 0; row < gridSize; row++) {
final rowZones = <HeatZone>[];
for (int col = 0; col < gridSize; col++) {
final cellShots = grid[row][col];
final avgScore = cellShots.isEmpty
? 0.0
: cellShots.fold<int>(0, (sum, s) => sum + s.score) / cellShots.length;
final avgScore = cellShots.isEmpty ? 0.0 : cellShots.fold<int>(0, (sum, s) => sum + s.score) / cellShots.length;
rowZones.add(HeatZone(
row: row,
col: col,
@@ -266,30 +235,15 @@ class StatisticsService {
zones.add(rowZones);
}
return HeatMap(
gridSize: gridSize,
zones: zones,
maxShotsInZone: maxCount,
totalShots: shots.length,
);
return HeatMap(gridSize: gridSize, zones: zones, maxShotsInZone: maxCount, totalShots: shots.length);
}
/// Calculate precision statistics
PrecisionStats _calculatePrecision(
List<Shot> shots,
double centerX,
double centerY,
) {
PrecisionStats _calculatePrecision(List<Shot> shots, double centerX, double centerY) {
if (shots.isEmpty) {
return const PrecisionStats(
avgDistanceFromCenter: 0,
groupingDiameter: 0,
precisionScore: 0,
consistencyScore: 0,
);
return const PrecisionStats(avgDistanceFromCenter: 0, groupingDiameter: 0, precisionScore: 0, consistencyScore: 0);
}
// Calculate distances from center
final distances = shots.map((shot) {
final dx = shot.x - centerX;
final dy = shot.y - centerY;
@@ -297,8 +251,6 @@ class StatisticsService {
}).toList();
final avgDistance = distances.reduce((a, b) => a + b) / distances.length;
// Calculate grouping (spread between shots)
double maxSpread = 0;
for (int i = 0; i < shots.length; i++) {
for (int j = i + 1; j < shots.length; j++) {
@@ -309,45 +261,29 @@ class StatisticsService {
}
}
// Calculate standard deviation of distances (consistency)
final meanDist = avgDistance;
double variance = 0;
for (final d in distances) {
variance += math.pow(d - meanDist, 2);
variance += math.pow(d - avgDistance, 2);
}
final stdDevDist = math.sqrt(variance / distances.length);
// Precision score: based on average distance from center (0-100)
// 0 distance = 100 score, 0.5 distance = 0 score
final precisionScore = math.max(0, (1 - avgDistance * 2) * 100);
// Consistency score: based on grouping tightness (0-100)
// Lower spread = higher consistency
final consistencyScore = math.max(0, (1 - stdDevDist * 5) * 100);
return PrecisionStats(
avgDistanceFromCenter: avgDistance.toDouble(),
groupingDiameter: maxSpread.toDouble(),
precisionScore: precisionScore.clamp(0.0, 100.0).toDouble(),
consistencyScore: consistencyScore.clamp(0.0, 100.0).toDouble(),
avgDistanceFromCenter: avgDistance,
groupingDiameter: maxSpread,
precisionScore: precisionScore.toDouble().clamp(0.0, 100.0),
consistencyScore: consistencyScore.toDouble().clamp(0.0, 100.0),
);
}
/// Calculate standard deviation statistics
StdDevStats _calculateStdDev(List<Shot> shots) {
if (shots.isEmpty) {
return const StdDevStats(
stdDevX: 0,
stdDevY: 0,
stdDevRadial: 0,
stdDevScore: 0,
meanX: 0.5,
meanY: 0.5,
meanScore: 0,
);
return const StdDevStats(stdDevX: 0, stdDevY: 0, stdDevRadial: 0, stdDevScore: 0, meanX: 0.5, meanY: 0.5, meanScore: 0);
}
// Calculate means
double sumX = 0, sumY = 0, sumScore = 0;
for (final shot in shots) {
sumX += shot.x;
@@ -358,7 +294,6 @@ class StatisticsService {
final meanY = sumY / shots.length;
final meanScore = sumScore / shots.length;
// Calculate variances
double varianceX = 0, varianceY = 0, varianceScore = 0;
for (final shot in shots) {
varianceX += math.pow(shot.x - meanX, 2);
@@ -369,18 +304,11 @@ class StatisticsService {
varianceY /= shots.length;
varianceScore /= shots.length;
final stdDevX = math.sqrt(varianceX);
final stdDevY = math.sqrt(varianceY);
final stdDevScore = math.sqrt(varianceScore);
// Radial standard deviation
final stdDevRadial = math.sqrt(varianceX + varianceY);
return StdDevStats(
stdDevX: stdDevX,
stdDevY: stdDevY,
stdDevRadial: stdDevRadial,
stdDevScore: stdDevScore,
stdDevX: math.sqrt(varianceX),
stdDevY: math.sqrt(varianceY),
stdDevRadial: math.sqrt(varianceX + varianceY),
stdDevScore: math.sqrt(varianceScore),
meanX: meanX,
meanY: meanY,
meanScore: meanScore,
@@ -388,42 +316,13 @@ class StatisticsService {
}
/// Calculate regional distribution
RegionalStats _calculateRegional(
List<Shot> shots,
double centerX,
double centerY,
) {
RegionalStats _calculateRegional(List<Shot> shots, double centerX, double centerY) {
if (shots.isEmpty) {
return const RegionalStats(
quadrantDistribution: {},
sectorDistribution: {},
dominantDirection: 'Centre',
biasX: 0,
biasY: 0,
);
return const RegionalStats(quadrantDistribution: {}, sectorDistribution: {}, dominantDirection: 'Centre', biasX: 0, biasY: 0);
}
// Quadrant distribution
final quadrants = <String, int>{
'Haut-Gauche': 0,
'Haut-Droite': 0,
'Bas-Gauche': 0,
'Bas-Droite': 0,
};
// Sector distribution (8 sectors + center)
final sectors = <String, int>{
'N': 0,
'NE': 0,
'E': 0,
'SE': 0,
'S': 0,
'SO': 0,
'O': 0,
'NO': 0,
'Centre': 0,
};
final quadrants = <String, int>{'Haut-Gauche': 0, 'Haut-Droite': 0, 'Bas-Gauche': 0, 'Bas-Droite': 0};
final sectors = <String, int>{'N': 0, 'NE': 0, 'E': 0, 'SE': 0, 'S': 0, 'SO': 0, 'O': 0, 'NO': 0, 'Centre': 0};
double sumDx = 0, sumDy = 0;
for (final shot in shots) {
@@ -432,16 +331,12 @@ class StatisticsService {
sumDx += dx;
sumDy += dy;
// Quadrant
if (dy < 0) {
quadrants[dx < 0 ? 'Haut-Gauche' : 'Haut-Droite'] =
quadrants[dx < 0 ? 'Haut-Gauche' : 'Haut-Droite']! + 1;
quadrants[dx < 0 ? 'Haut-Gauche' : 'Haut-Droite'] = quadrants[dx < 0 ? 'Haut-Gauche' : 'Haut-Droite']! + 1;
} else {
quadrants[dx < 0 ? 'Bas-Gauche' : 'Bas-Droite'] =
quadrants[dx < 0 ? 'Bas-Gauche' : 'Bas-Droite']! + 1;
quadrants[dx < 0 ? 'Bas-Gauche' : 'Bas-Droite'] = quadrants[dx < 0 ? 'Bas-Gauche' : 'Bas-Droite']! + 1;
}
// Sector
final distance = math.sqrt(dx * dx + dy * dy);
if (distance < 0.1) {
sectors['Centre'] = sectors['Centre']! + 1;
@@ -452,11 +347,6 @@ class StatisticsService {
}
}
// Calculate bias
final biasX = sumDx / shots.length;
final biasY = sumDy / shots.length;
// Find dominant direction
String dominant = 'Centre';
int maxCount = 0;
sectors.forEach((key, value) {
@@ -470,14 +360,12 @@ class StatisticsService {
quadrantDistribution: quadrants,
sectorDistribution: sectors,
dominantDirection: dominant,
biasX: biasX,
biasY: biasY,
biasX: sumDx / shots.length,
biasY: sumDy / shots.length,
);
}
String _angleToSector(double angle) {
// Angle is in degrees, -180 to 180
// 0 = East, 90 = South, -90 = North, 180/-180 = West
if (angle >= -22.5 && angle < 22.5) return 'E';
if (angle >= 22.5 && angle < 67.5) return 'SE';
if (angle >= 67.5 && angle < 112.5) return 'S';
@@ -491,41 +379,12 @@ class StatisticsService {
SessionStatistics _emptyStatistics(StatsPeriod period, List<Session> sessions) {
return SessionStatistics(
totalShots: 0,
totalScore: 0,
avgScore: 0,
maxScore: 0,
minScore: 0,
heatMap: const HeatMap(
gridSize: 5,
zones: [],
maxShotsInZone: 0,
totalShots: 0,
),
precision: const PrecisionStats(
avgDistanceFromCenter: 0,
groupingDiameter: 0,
precisionScore: 0,
consistencyScore: 0,
),
stdDev: const StdDevStats(
stdDevX: 0,
stdDevY: 0,
stdDevRadial: 0,
stdDevScore: 0,
meanX: 0.5,
meanY: 0.5,
meanScore: 0,
),
regional: const RegionalStats(
quadrantDistribution: {},
sectorDistribution: {},
dominantDirection: 'Centre',
biasX: 0,
biasY: 0,
),
sessions: sessions,
period: period,
totalShots: 0, totalScore: 0, avgScore: 0, maxScore: 0, minScore: 0,
heatMap: const HeatMap(gridSize: 5, zones: [], maxShotsInZone: 0, totalShots: 0),
precision: const PrecisionStats(avgDistanceFromCenter: 0, groupingDiameter: 0, precisionScore: 0, consistencyScore: 0),
stdDev: const StdDevStats(stdDevX: 0, stdDevY: 0, stdDevRadial: 0, stdDevScore: 0, meanX: 0.5, meanY: 0.5, meanScore: 0),
regional: const RegionalStats(quadrantDistribution: {}, sectorDistribution: {}, dominantDirection: 'Centre', biasX: 0, biasY: 0),
sessions: sessions, period: period,
);
}
}

View File

@@ -1,4 +1,5 @@
import 'dart:math' as math;
import 'package:flutter/foundation.dart';
import '../data/models/target_type.dart';
import 'image_processing_service.dart';
import 'opencv_impact_detection_service.dart';
@@ -7,6 +8,110 @@ export 'image_processing_service.dart'
export 'opencv_impact_detection_service.dart'
show OpenCVDetectionSettings, OpenCVDetectedImpact;
// ============================================================================
// STRUCT ET FONCTION GLOBALE POUR LE PARALLÉLISME (THREAD SECONDAIRE)
// ============================================================================
/// Conteneur de données pour envoyer les paramètres à l'Isolate d'arrière-plan.
class DetectionPayload {
final String imagePath;
final TargetType targetType;
// On recrée les instances à l'intérieur du thread isolé car les objets ne se partagent pas entre threads.
DetectionPayload({
required this.imagePath,
required this.targetType,
});
}
/// FONCTION EXÉCUTÉE EN PARALLÈLE : Tourne sur un autre cœur du processeur.
/// L'interface graphique reste à 120 FPS et totalement fluide.
TargetDetectionResult runParallelTargetDetection(DetectionPayload payload) {
// 1. Initialisation locale des services dans le sous-thread
final imageProcessingService = ImageProcessingService();
try {
// 2. Détection de la cible principale (Calcul lourd)
final mainTarget = imageProcessingService.detectMainTarget(payload.imagePath);
double centerX = 0.5;
double centerY = 0.5;
double radius = 0.4;
if (mainTarget != null) {
centerX = mainTarget.centerX;
centerY = mainTarget.centerY;
radius = mainTarget.radius;
}
// 3. Détection des impacts (Calcul lourd)
final impacts = imageProcessingService.detectImpacts(payload.imagePath);
// 4. Calcul mathématique des scores relatifs
final detectedImpacts = impacts.map((impact) {
final score = payload.targetType == TargetType.concentric
? _staticCalculateConcentricScore(
impact.x,
impact.y,
centerX,
centerY,
radius,
)
: _staticCalculateSilhouetteScore(impact.x, impact.y, centerX, centerY);
return DetectedImpactResult(
x: impact.x,
y: impact.y,
radius: impact.radius,
suggestedScore: score,
);
}).toList();
return TargetDetectionResult(
centerX: centerX,
centerY: centerY,
radius: radius,
impacts: detectedImpacts,
);
} catch (e) {
return TargetDetectionResult.error('Erreur de detection parallèle: $e');
}
}
// Fonctions mathématiques pures nécessaires à l'Isolate (statiques)
int _staticCalculateConcentricScore(double impactX, double impactY, double centerX, double centerY, double targetRadius) {
final dx = impactX - centerX;
final dy = impactY - centerY;
final distance = math.sqrt(dx * dx + dy * dy) / targetRadius;
if (distance <= 0.1) return 10;
if (distance <= 0.2) return 9;
if (distance <= 0.3) return 8;
if (distance <= 0.4) return 7;
if (distance <= 0.5) return 6;
if (distance <= 0.6) return 5;
if (distance <= 0.7) return 4;
if (distance <= 0.8) return 3;
if (distance <= 0.9) return 2;
if (distance <= 1.0) return 1;
return 0;
}
int _staticCalculateSilhouetteScore(double impactX, double impactY, double centerX, double centerY) {
final dx = (impactX - centerX).abs();
final dy = impactY - centerY;
if (dx > 0.15) return 0;
if (dy < -0.25) return 5;
if (dy < 0.0) return 5;
if (dy < 0.15) return 4;
if (dy < 0.35) return 3;
return 0;
}
// ============================================================================
// FIN DU BLOC DE PARALLÉLISME
// ============================================================================
class TargetDetectionResult {
final double centerX; // Relative (0-1)
final double centerY; // Relative (0-1)
@@ -58,13 +163,20 @@ class TargetDetectionService {
ImageProcessingService? imageProcessingService,
OpenCVImpactDetectionService? opencvService,
}) : _imageProcessingService =
imageProcessingService ?? ImageProcessingService(),
_opencvService = opencvService ?? OpenCVImpactDetectionService();
imageProcessingService ?? ImageProcessingService(),
_opencvService = opencvService ?? OpenCVImpactDetectionService();
/// Detect target and impacts from an image file
/// Detect target and impacts from an image file ASYNCHRONOUSLY in a separate Thread.
/// CORRECTION : Utilise désormais 'compute' pour basculer en arrière-plan immédiat.
Future<TargetDetectionResult> detectTargetAsync(String imagePath, TargetType targetType) async {
final payload = DetectionPayload(imagePath: imagePath, targetType: targetType);
// Déclenche l'exécution isolée en tâche de fond
return await compute(runParallelTargetDetection, payload);
}
/// Gardée pour rétrocompatibilité synchrone si nécessaire
TargetDetectionResult detectTarget(String imagePath, TargetType targetType) {
try {
// Detect main target
final mainTarget = _imageProcessingService.detectMainTarget(imagePath);
double centerX = 0.5;
@@ -77,19 +189,17 @@ class TargetDetectionService {
radius = mainTarget.radius;
}
// Detect impacts
final impacts = _imageProcessingService.detectImpacts(imagePath);
// Convert impacts to relative coordinates and calculate scores
final detectedImpacts = impacts.map((impact) {
final score = targetType == TargetType.concentric
? _calculateConcentricScore(
impact.x,
impact.y,
centerX,
centerY,
radius,
)
impact.x,
impact.y,
centerX,
centerY,
radius,
)
: _calculateSilhouetteScore(impact.x, impact.y, centerX, centerY);
return DetectedImpactResult(
@@ -112,18 +222,16 @@ class TargetDetectionService {
}
int _calculateConcentricScore(
double impactX,
double impactY,
double centerX,
double centerY,
double targetRadius,
) {
// Calculate distance from center (normalized to target radius)
double impactX,
double impactY,
double centerX,
double centerY,
double targetRadius,
) {
final dx = impactX - centerX;
final dy = impactY - centerY;
final distance = math.sqrt(dx * dx + dy * dy) / targetRadius;
// Score zones (10 zones)
if (distance <= 0.1) return 10;
if (distance <= 0.2) return 9;
if (distance <= 0.3) return 8;
@@ -134,61 +242,52 @@ class TargetDetectionService {
if (distance <= 0.8) return 3;
if (distance <= 0.9) return 2;
if (distance <= 1.0) return 1;
return 0; // Outside target
return 0;
}
int _calculateSilhouetteScore(
double impactX,
double impactY,
double centerX,
double centerY,
) {
// For silhouettes, scoring is typically based on zones
// Head and center mass = 5, body = 4, lower = 3
double impactX,
double impactY,
double centerX,
double centerY,
) {
final dx = (impactX - centerX).abs();
final dy = impactY - centerY;
// Check if within silhouette bounds (approximate)
if (dx > 0.15) return 0; // Too far left/right
if (dx > 0.15) return 0;
if (dy < -0.25) return 5;
if (dy < 0.0) return 5;
if (dy < 0.15) return 4;
if (dy < 0.35) return 3;
// Vertical zones
if (dy < -0.25) return 5; // Head zone (top)
if (dy < 0.0) return 5; // Center mass (upper body)
if (dy < 0.15) return 4; // Body
if (dy < 0.35) return 3; // Lower body
return 0; // Outside target
return 0;
}
/// Detect only impacts with custom settings (doesn't affect target position)
List<DetectedImpactResult> detectImpactsOnly(
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount,
ImpactDetectionSettings settings,
) {
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount,
ImpactDetectionSettings settings,
) {
try {
// Detect impacts with custom settings
final impacts = _imageProcessingService.detectImpactsWithSettings(
imagePath,
settings,
);
// Convert impacts to relative coordinates and calculate scores
return impacts.map((impact) {
final score = targetType == TargetType.concentric
? _calculateConcentricScoreWithRings(
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
: _calculateSilhouetteScore(impact.x, impact.y, centerX, centerY);
return DetectedImpactResult(
@@ -204,19 +303,17 @@ class TargetDetectionService {
}
int _calculateConcentricScoreWithRings(
double impactX,
double impactY,
double centerX,
double centerY,
double targetRadius,
int ringCount,
) {
// Calculate distance from center (normalized to target radius)
double impactX,
double impactY,
double centerX,
double centerY,
double targetRadius,
int ringCount,
) {
final dx = impactX - centerX;
final dy = impactY - centerY;
final distance = math.sqrt(dx * dx + dy * dy) / targetRadius;
// Score zones based on ringCount
for (int i = 0; i < ringCount; i++) {
final zoneRadius = (i + 1) / ringCount;
if (distance <= zoneRadius) {
@@ -224,31 +321,29 @@ class TargetDetectionService {
}
}
return 0; // Outside target
return 0;
}
/// Analyze reference impacts to learn their characteristics
ImpactCharacteristics? analyzeReferenceImpacts(
String imagePath,
List<ReferenceImpact> references,
) {
String imagePath,
List<ReferenceImpact> references,
) {
return _imageProcessingService.analyzeReferenceImpacts(
imagePath,
references,
);
}
/// Detect impacts based on reference characteristics (calibrated detection)
List<DetectedImpactResult> detectImpactsFromReferences(
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount,
ImpactCharacteristics characteristics, {
double tolerance = 2.0,
}) {
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount,
ImpactCharacteristics characteristics, {
double tolerance = 2.0,
}) {
try {
final impacts = _imageProcessingService.detectImpactsFromReferences(
imagePath,
@@ -259,13 +354,13 @@ class TargetDetectionService {
return impacts.map((impact) {
final score = targetType == TargetType.concentric
? _calculateConcentricScoreWithRings(
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
: _calculateSilhouetteScore(impact.x, impact.y, centerX, centerY);
return DetectedImpactResult(
@@ -280,20 +375,15 @@ class TargetDetectionService {
}
}
/// Détecte les impacts en utilisant OpenCV (Hough Circles + Contours)
///
/// Cette méthode utilise les algorithmes OpenCV pour une détection plus robuste:
/// - Transformation de Hough pour détecter les cercles
/// - Analyse de contours avec filtrage par circularité
List<DetectedImpactResult> detectImpactsWithOpenCV(
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount, {
OpenCVDetectionSettings? settings,
}) {
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount, {
OpenCVDetectionSettings? settings,
}) {
try {
final impacts = _opencvService.detectImpacts(
imagePath,
@@ -303,13 +393,13 @@ class TargetDetectionService {
return impacts.map((impact) {
final score = targetType == TargetType.concentric
? _calculateConcentricScoreWithRings(
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
: _calculateSilhouetteScore(impact.x, impact.y, centerX, centerY);
return DetectedImpactResult(
@@ -320,27 +410,22 @@ class TargetDetectionService {
);
}).toList();
} catch (e) {
print('Erreur détection OpenCV: $e');
debugPrint('Erreur détection OpenCV: $e');
return [];
}
}
/// Détecte les impacts avec OpenCV en utilisant des références
///
/// Analyse les impacts de référence pour apprendre leurs caractéristiques
/// puis détecte les impacts similaires dans l'image.
List<DetectedImpactResult> detectImpactsWithOpenCVFromReferences(
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount,
List<ReferenceImpact> references, {
double tolerance = 2.0,
}) {
String imagePath,
TargetType targetType,
double centerX,
double centerY,
double radius,
int ringCount,
List<ReferenceImpact> references, {
double tolerance = 2.0,
}) {
try {
// Convertir les références au format OpenCV
final refPoints = references.map((r) => (x: r.x, y: r.y)).toList();
final impacts = _opencvService.detectFromReferences(
@@ -352,13 +437,13 @@ class TargetDetectionService {
return impacts.map((impact) {
final score = targetType == TargetType.concentric
? _calculateConcentricScoreWithRings(
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
impact.x,
impact.y,
centerX,
centerY,
radius,
ringCount,
)
: _calculateSilhouetteScore(impact.x, impact.y, centerX, centerY);
return DetectedImpactResult(
@@ -369,9 +454,8 @@ class TargetDetectionService {
);
}).toList();
} catch (e) {
print('Erreur détection OpenCV depuis références: $e');
debugPrint('Erreur détection OpenCV depuis références: $e');
return [];
}
}
}

View File

@@ -0,0 +1,259 @@
import 'dart:async';
import 'dart:math' as math;
import 'package:flutter/foundation.dart';
import 'package:opencv_dart/opencv_dart.dart' as cv;
/// Résultat d'une tentative de redressement de cible.
class RectifyResult {
/// Chemin du fichier image redressé (ou original si échec).
final String outputPath;
/// true si une cible a été détectée et redressée, false si on a renvoyé
/// l'image d'origine sans transformation.
final bool rectified;
/// Angle d'inclinaison estimé de la cible AVANT redressement, en degrés.
/// (0 = déjà de face). Utile pour informer l'utilisateur.
final double estimatedTiltDegrees;
/// Message de diagnostic (utile pour debug / affichage).
final String message;
const RectifyResult({
required this.outputPath,
required this.rectified,
required this.estimatedTiltDegrees,
required this.message,
});
}
/// Service qui redresse une cible RONDE (cercles concentriques) photographiée
/// de biais, en la ramenant parfaitement de face.
///
/// Principe :
/// 1. Détecter le plus grand contour ~circulaire de l'image.
/// 2. Ajuster une ELLIPSE sur ce contour (fitEllipse).
/// 3. Un cercle vu en perspective devient une ellipse : on calcule la
/// transformation de perspective qui remappe cette ellipse vers un
/// CERCLE parfait, et on l'applique à toute l'image.
/// 4. La cible apparaît alors de face.
///
/// L'image résultat est carrée et centrée sur la cible.
class TargetRectifyService {
/// Taille (en pixels) du côté de l'image carrée de sortie.
final int outputSize;
/// Marge autour de la cible dans l'image de sortie (1.0 = cible pile au bord,
/// 1.3 = 30 % de marge autour). Garde un peu de contexte.
final double marginFactor;
/// En dessous de cet écart d'axes (ratio petit/grand axe proche de 1),
/// la cible est considérée déjà de face → pas de warp inutile.
final double minTiltRatioToRectify;
TargetRectifyService({
this.outputSize = 1024,
this.marginFactor = 1.25,
this.minTiltRatioToRectify = 0.985,
});
/// Redresse l'image située à [inputPath]. Écrit le résultat dans
/// [outputPath] et renvoie un [RectifyResult].
///
/// Ne bloque jamais : en cas d'échec de détection, renvoie l'image
/// d'origine (rectified = false) pour ne pas perdre la photo du tireur.
Future<RectifyResult> rectify({
required String inputPath,
required String outputPath,
}) async {
cv.Mat? src;
cv.Mat? gray;
cv.Mat? blurred;
cv.Mat? edges;
try {
src = cv.imread(inputPath, flags: cv.IMREAD_COLOR);
if (src.isEmpty) {
return RectifyResult(
outputPath: inputPath,
rectified: false,
estimatedTiltDegrees: 0,
message: 'Image illisible',
);
}
// ── 1. Prétraitement ────────────────────────────────────────────────
gray = cv.cvtColor(src, cv.COLOR_BGR2GRAY);
blurred = cv.gaussianBlur(gray, (5, 5), 2, sigmaY: 2);
edges = cv.canny(blurred, 60, 160);
// Dilatation légère pour fermer les contours brisés
final cv.Mat kernel = cv.getStructuringElement(
cv.MORPH_ELLIPSE,
(3, 3),
);
final cv.Mat dilated = cv.dilate(edges, kernel);
// ── 2. Recherche du meilleur contour elliptique ──────────────────────
final (contours, _) = cv.findContours(
dilated,
cv.RETR_EXTERNAL,
cv.CHAIN_APPROX_SIMPLE,
);
final double imgArea = (src.width * src.height).toDouble();
cv.RotatedRect? bestEllipse;
double bestScore = 0;
for (int i = 0; i < contours.length; i++) {
final c = contours[i];
if (c.length < 5) continue; // fitEllipse exige >= 5 points
final double area = cv.contourArea(c);
// On ignore les contours minuscules et ceux qui couvrent presque tout
if (area < imgArea * 0.03 || area > imgArea * 0.97) continue;
final cv.RotatedRect e = cv.fitEllipse(c);
final ep = e.points; // 4 sommets
if (ep.length < 4) continue;
final double ecx = (ep[0].x + ep[1].x + ep[2].x + ep[3].x) / 4.0;
final double ecy = (ep[0].y + ep[1].y + ep[2].y + ep[3].y) / 4.0;
final double mAx = (ep[0].x + ep[1].x) / 2.0;
final double mAy = (ep[0].y + ep[1].y) / 2.0;
final double mBx = (ep[1].x + ep[2].x) / 2.0;
final double mBy = (ep[1].y + ep[2].y) / 2.0;
final double w =
2 * math.sqrt(math.pow(mAx - ecx, 2) + math.pow(mAy - ecy, 2));
final double h =
2 * math.sqrt(math.pow(mBx - ecx, 2) + math.pow(mBy - ecy, 2));
if (w <= 1 || h <= 1) continue;
// À quel point le contour ressemble-t-il vraiment à son ellipse ?
// On compare l'aire du contour à l'aire de l'ellipse ajustée.
final double ellipseArea = math.pi * (w / 2) * (h / 2);
if (ellipseArea <= 0) continue;
final double fitRatio = area / ellipseArea; // ~1 si bon ajustement
if (fitRatio < 0.7 || fitRatio > 1.3) continue;
// Score = taille de l'ellipse (on veut la cible la plus grande)
final double score = ellipseArea;
if (score > bestScore) {
bestScore = score;
bestEllipse = e;
}
}
if (bestEllipse == null) {
return RectifyResult(
outputPath: inputPath,
rectified: false,
estimatedTiltDegrees: 0,
message: 'Aucune cible circulaire détectée',
);
}
// ── 3. Extraire les 4 sommets de l'ellipse (robuste à la version d'API) ─
// RotatedRect.points renvoie les 4 coins de la boîte englobant l'ellipse.
// On en dérive nous-mêmes le centre, les demi-axes et l'orientation, ce
// qui évite de dépendre de la forme exacte de `.size` / `.center`
// (record vs objet) qui varie selon les versions d'opencv_dart.
final pts = bestEllipse.points; // List<Point2f> de 4 sommets
double px(int i) => pts[i].x;
double py(int i) => pts[i].y;
// Centre = moyenne des 4 sommets
final double cx = (px(0) + px(1) + px(2) + px(3)) / 4.0;
final double cy = (py(0) + py(1) + py(2) + py(3)) / 4.0;
// Milieux de deux côtés adjacents → extrémités des deux demi-axes
// Côté 0-1 et côté 1-2 (ordre des sommets d'un RotatedRect)
final double m01x = (px(0) + px(1)) / 2.0;
final double m01y = (py(0) + py(1)) / 2.0;
final double m12x = (px(1) + px(2)) / 2.0;
final double m12y = (py(1) + py(2)) / 2.0;
// Demi-axes = distance centre → milieu de chaque côté
final double axisA =
math.sqrt(math.pow(m01x - cx, 2) + math.pow(m01y - cy, 2));
final double axisB =
math.sqrt(math.pow(m12x - cx, 2) + math.pow(m12y - cy, 2));
final double majorAxis = math.max(axisA, axisB);
final double minorAxis = math.min(axisA, axisB);
if (majorAxis <= 1) {
return RectifyResult(
outputPath: inputPath,
rectified: false,
estimatedTiltDegrees: 0,
message: 'Ellipse dégénérée',
);
}
final double axisRatio = minorAxis / majorAxis; // 1 = cercle parfait
final double tiltDeg =
math.acos(axisRatio.clamp(0.0, 1.0)) * (180.0 / math.pi);
// Déjà quasiment de face → on ne touche pas (évite le flou inutile)
if (axisRatio >= minTiltRatioToRectify) {
cv.imwrite(outputPath, src);
return RectifyResult(
outputPath: outputPath,
rectified: false,
estimatedTiltDegrees: tiltDeg,
message: 'Cible déjà de face',
);
}
// ── 4. Construire la transformation de perspective ────────────────────
// Source : extrémités des deux axes de l'ellipse (4 points).
// Destination : extrémités des axes d'un cercle parfait centré.
// On obtient les extrémités en prolongeant centre→milieu-de-côté.
final srcPts = cv.VecPoint.fromList([
cv.Point((cx + (m01x - cx)).round(), (cy + (m01y - cy)).round()),
cv.Point((cx - (m01x - cx)).round(), (cy - (m01y - cy)).round()),
cv.Point((cx + (m12x - cx)).round(), (cy + (m12y - cy)).round()),
cv.Point((cx - (m12x - cx)).round(), (cy - (m12y - cy)).round()),
]);
// Cible : cercle parfait centré, rayon R, dans une image carrée.
// L'axe "A" (m01) devient l'axe horizontal, l'axe "B" (m12) le vertical.
final double out = outputSize.toDouble();
final double center = out / 2;
final double radius = (out / 2) / marginFactor;
final dstPts = cv.VecPoint.fromList([
cv.Point((center + radius).round(), center.round()),
cv.Point((center - radius).round(), center.round()),
cv.Point(center.round(), (center + radius).round()),
cv.Point(center.round(), (center - radius).round()),
]);
final cv.Mat transform = cv.getPerspectiveTransform(srcPts, dstPts);
final cv.Mat warped = cv.warpPerspective(
src,
transform,
(outputSize, outputSize),
flags: cv.INTER_LINEAR,
borderMode: cv.BORDER_CONSTANT,
);
cv.imwrite(outputPath, warped);
return RectifyResult(
outputPath: outputPath,
rectified: true,
estimatedTiltDegrees: tiltDeg,
message: 'Cible redressée (inclinaison ${tiltDeg.toStringAsFixed(1)}°)',
);
} catch (e) {
debugPrint('TargetRectify erreur: $e');
// En cas de pépin, on renvoie l'original pour ne jamais perdre la photo
return RectifyResult(
outputPath: inputPath,
rectified: false,
estimatedTiltDegrees: 0,
message: 'Erreur de traitement: $e',
);
}
}
}

View File

@@ -4,6 +4,7 @@ import 'package:crypto/crypto.dart';
import 'package:shared_preferences/shared_preferences.dart';
import 'package:device_info_plus/device_info_plus.dart';
import 'dart:io';
import 'package:flutter/foundation.dart';
class WalletIdentityService {
static const String _prefsKey = 'wallet_identity_phrase';
@@ -86,7 +87,7 @@ class WalletIdentityService {
deviceId = windowsInfo.deviceId;
}
} catch (e) {
print('Erreur lecture device ID: $e');
debugPrint('Erreur lecture device ID: $e');
}
// Add a salt to the device ID

View File

@@ -7,6 +7,7 @@ list(APPEND FLUTTER_PLUGIN_LIST
)
list(APPEND FLUTTER_FFI_PLUGIN_LIST
jni
)
set(PLUGIN_BUNDLED_LIBRARIES)

View File

@@ -7,14 +7,12 @@ import Foundation
import device_info_plus
import file_selector_macos
import path_provider_foundation
import shared_preferences_foundation
import sqflite_darwin
func RegisterGeneratedPlugins(registry: FlutterPluginRegistry) {
DeviceInfoPlusMacosPlugin.register(with: registry.registrar(forPlugin: "DeviceInfoPlusMacosPlugin"))
FileSelectorPlugin.register(with: registry.registrar(forPlugin: "FileSelectorPlugin"))
PathProviderPlugin.register(with: registry.registrar(forPlugin: "PathProviderPlugin"))
SharedPreferencesPlugin.register(with: registry.registrar(forPlugin: "SharedPreferencesPlugin"))
SqflitePlugin.register(with: registry.registrar(forPlugin: "SqflitePlugin"))
}

View File

@@ -5,18 +5,26 @@ packages:
dependency: transitive
description:
name: archive
sha256: "2fde1607386ab523f7a36bb3e7edb43bd58e6edaf2ffb29d8a6d578b297fdbbd"
sha256: a96e8b390886ee8abb49b7bd3ac8df6f451c621619f52a26e815fdcf568959ff
url: "https://pub.dev"
source: hosted
version: "4.0.7"
version: "4.0.9"
args:
dependency: transitive
description:
name: args
sha256: d0481093c50b1da8910eb0bb301626d4d8eb7284aa739614d2b394ee09e3ea04
url: "https://pub.dev"
source: hosted
version: "2.7.0"
async:
dependency: transitive
description:
name: async
sha256: "758e6d74e971c3e5aceb4110bfd6698efc7f501675bcfe0c775459a8140750eb"
sha256: e2eb0491ba5ddb6177742d2da23904574082139b07c1e33b8503b9f46f3e1a37
url: "https://pub.dev"
source: hosted
version: "2.13.0"
version: "2.13.1"
boolean_selector:
dependency: transitive
description:
@@ -25,6 +33,46 @@ packages:
url: "https://pub.dev"
source: hosted
version: "2.1.2"
camera:
dependency: "direct main"
description:
name: camera
sha256: "034c38cb8014d29698dcae6d20276688a1bf74e6487dfeb274d70ea05d5f7777"
url: "https://pub.dev"
source: hosted
version: "0.12.0+1"
camera_android_camerax:
dependency: transitive
description:
name: camera_android_camerax
sha256: b5064cf25a2787d122d0bf12e77c7b1033a2b983d0730e3091f770ee376efde5
url: "https://pub.dev"
source: hosted
version: "0.7.2"
camera_avfoundation:
dependency: transitive
description:
name: camera_avfoundation
sha256: "90e4cc3fde331581a3b2d35d83be41dbb7393af0ab857eb27b732174289cb96d"
url: "https://pub.dev"
source: hosted
version: "0.10.1"
camera_platform_interface:
dependency: transitive
description:
name: camera_platform_interface
sha256: "7ac852d77699acee79f0d438b793feee26721841e50973576419ff5c6d95e9b7"
url: "https://pub.dev"
source: hosted
version: "2.13.0"
camera_web:
dependency: transitive
description:
name: camera_web
sha256: "57f49a635c8bf249d07fb95eb693d7e4dda6796dedb3777f9127fb54847beba7"
url: "https://pub.dev"
source: hosted
version: "0.3.5+3"
change_case:
dependency: transitive
description:
@@ -37,10 +85,10 @@ packages:
dependency: transitive
description:
name: characters
sha256: faf38497bda5ead2a8c7615f4f7939df04333478bf32e4173fcb06d428b5716b
sha256: f71061c654a3380576a52b451dd5532377954cf9dbd272a78fc8479606670803
url: "https://pub.dev"
source: hosted
version: "1.4.1"
version: "1.4.0"
clock:
dependency: transitive
description:
@@ -85,18 +133,18 @@ packages:
dependency: "direct main"
description:
name: cupertino_icons
sha256: ba631d1c7f7bef6b729a622b7b752645a2d076dba9976925b8f25725a30e1ee6
sha256: "41e005c33bd814be4d3096aff55b1908d419fde52ca656c8c47719ec745873cd"
url: "https://pub.dev"
source: hosted
version: "1.0.8"
version: "1.0.9"
dartcv4:
dependency: transitive
description:
name: dartcv4
sha256: "43dba49162662f3b6e3daf5a95d071429365e2f1ada67d412b851fc9be442e58"
sha256: "5764d13550055da3bb35ca28e6866b837579dfb4b594582b7a7753785ca5dfef"
url: "https://pub.dev"
source: hosted
version: "2.2.1+1"
version: "2.2.1+4"
device_info_plus:
dependency: "direct main"
description:
@@ -197,10 +245,10 @@ packages:
dependency: "direct main"
description:
name: fl_chart
sha256: "00b74ae680df6b1135bdbea00a7d1fc072a9180b7c3f3702e4b19a9943f5ed7d"
sha256: b938f77d042cbcd822936a7a359a7235bad8bd72070de1f827efc2cc297ac888
url: "https://pub.dev"
source: hosted
version: "0.66.2"
version: "1.2.0"
flutter:
dependency: "direct main"
description: flutter
@@ -214,14 +262,19 @@ packages:
url: "https://pub.dev"
source: hosted
version: "6.0.0"
flutter_localizations:
dependency: "direct main"
description: flutter
source: sdk
version: "0.0.0"
flutter_plugin_android_lifecycle:
dependency: transitive
description:
name: flutter_plugin_android_lifecycle
sha256: ee8068e0e1cd16c4a82714119918efdeed33b3ba7772c54b5d094ab53f9b7fd1
sha256: "38d1c268de9097ff59cf0e844ac38759fc78f76836d37edad06fa21e182055a0"
url: "https://pub.dev"
source: hosted
version: "2.0.33"
version: "2.0.34"
flutter_test:
dependency: "direct dev"
description: flutter
@@ -240,6 +293,14 @@ packages:
url: "https://pub.dev"
source: hosted
version: "2.1.3"
google_mlkit_commons:
dependency: transitive
description:
name: google_mlkit_commons
sha256: "3e69fea4211727732cc385104e675ad1e40b29f12edd492ee52fa108423a6124"
url: "https://pub.dev"
source: hosted
version: "0.11.1"
google_mlkit_document_scanner:
dependency: "direct main"
description:
@@ -248,14 +309,22 @@ packages:
url: "https://pub.dev"
source: hosted
version: "0.2.1"
google_mlkit_object_detection:
dependency: "direct main"
description:
name: google_mlkit_object_detection
sha256: "9dd35886972e18747e22098f8ebee78d30716a99a789bb2e3a65a24229e031e7"
url: "https://pub.dev"
source: hosted
version: "0.15.1"
hooks:
dependency: transitive
description:
name: hooks
sha256: "5d309c86e7ce34cd8e37aa71cb30cb652d3829b900ab145e4d9da564b31d59f7"
sha256: "025f060e86d2d4c3c47b56e33caf7f93bf9283340f26d23424ebcfccf34f621e"
url: "https://pub.dev"
source: hosted
version: "1.0.0"
version: "1.0.3"
http:
dependency: "direct main"
description:
@@ -276,26 +345,26 @@ packages:
dependency: "direct main"
description:
name: image
sha256: "492bd52f6c4fbb6ee41f781ff27765ce5f627910e1e0cbecfa3d9add5562604c"
sha256: f9881ff4998044947ec38d098bc7c8316ae1186fa786eddffdb867b9bc94dfce
url: "https://pub.dev"
source: hosted
version: "4.7.2"
version: "4.8.0"
image_picker:
dependency: "direct main"
description:
name: image_picker
sha256: "784210112be18ea55f69d7076e2c656a4e24949fa9e76429fe53af0c0f4fa320"
sha256: "91c025426c2881c551100bce834e201c835a170151545f58d17da5180ca7d9ac"
url: "https://pub.dev"
source: hosted
version: "1.2.1"
version: "1.2.2"
image_picker_android:
dependency: transitive
description:
name: image_picker_android
sha256: "518a16108529fc18657a3e6dde4a043dc465d16596d20ab2abd49a4cac2e703d"
sha256: d5b3e1774af29c9ab00103afb0d4614070f924d2e0057ac867ec98800114793f
url: "https://pub.dev"
source: hosted
version: "0.8.13+13"
version: "0.8.13+17"
image_picker_for_web:
dependency: transitive
description:
@@ -348,10 +417,26 @@ packages:
dependency: "direct main"
description:
name: intl
sha256: d6f56758b7d3014a48af9701c085700aac781a92a87a62b1333b46d8879661cf
sha256: "3df61194eb431efc39c4ceba583b95633a403f46c9fd341e550ce0bfa50e9aa5"
url: "https://pub.dev"
source: hosted
version: "0.19.0"
version: "0.20.2"
jni:
dependency: transitive
description:
name: jni
sha256: c2230682d5bc2362c1c9e8d3c7f406d9cbba23ab3f2e203a025dd47e0fb2e68f
url: "https://pub.dev"
source: hosted
version: "1.0.0"
jni_flutter:
dependency: transitive
description:
name: jni_flutter
sha256: "8b59e590786050b1cd866677dddaf76b1ade5e7bc751abe04b86e84d379d3ba6"
url: "https://pub.dev"
source: hosted
version: "1.0.1"
leak_tracker:
dependency: transitive
description:
@@ -380,10 +465,10 @@ packages:
dependency: transitive
description:
name: lints
sha256: a5e2b223cb7c9c8efdc663ef484fdd95bb243bff242ef5b13e26883547fce9a0
sha256: "12f842a479589fea194fe5c5a3095abc7be0c1f2ddfa9a0e76aed1dbd26a87df"
url: "https://pub.dev"
source: hosted
version: "6.0.0"
version: "6.1.0"
logging:
dependency: transitive
description:
@@ -396,26 +481,26 @@ packages:
dependency: transitive
description:
name: matcher
sha256: "12956d0ad8390bbcc63ca2e1469c0619946ccb52809807067a7020d57e647aa6"
sha256: dc58c723c3c24bf8d3e2d3ad3f2f9d7bd9cf43ec6feaa64181775e60190153f2
url: "https://pub.dev"
source: hosted
version: "0.12.18"
version: "0.12.17"
material_color_utilities:
dependency: transitive
description:
name: material_color_utilities
sha256: "9c337007e82b1889149c82ed242ed1cb24a66044e30979c44912381e9be4c48b"
sha256: f7142bb1154231d7ea5f96bc7bde4bda2a0945d2806bb11670e30b850d56bdec
url: "https://pub.dev"
source: hosted
version: "0.13.0"
version: "0.11.1"
meta:
dependency: transitive
description:
name: meta
sha256: "1741988757a65eb6b36abe716829688cf01910bbf91c34354ff7ec1c3de2b349"
sha256: "23f08335362185a5ea2ad3a4e597f1375e78bce8a040df5c600c8d3552ef2394"
url: "https://pub.dev"
source: hosted
version: "1.18.0"
version: "1.17.0"
mime:
dependency: transitive
description:
@@ -428,18 +513,18 @@ packages:
dependency: transitive
description:
name: native_toolchain_c
sha256: "89e83885ba09da5fdf2cdacc8002a712ca238c28b7f717910b34bcd27b0d03ac"
sha256: "6ba77bb18063eebe9de401f5e6437e95e1438af0a87a3a39084fbd37c90df572"
url: "https://pub.dev"
source: hosted
version: "0.17.4"
version: "0.17.6"
native_toolchain_cmake:
dependency: transitive
description:
name: native_toolchain_cmake
sha256: fe40e8483183ced98e851e08a9cd2a547fd412cccab98277aa23f2377e43d66f
sha256: cd4865568c57f03c7ab1f138cc5032c5f77825d27083d6f5a3e9bbb3e8014a87
url: "https://pub.dev"
source: hosted
version: "0.2.4"
version: "0.2.5"
nested:
dependency: transitive
description:
@@ -448,14 +533,30 @@ packages:
url: "https://pub.dev"
source: hosted
version: "1.0.0"
objective_c:
dependency: transitive
description:
name: objective_c
sha256: "100a1c87616ab6ed41ec263b083c0ef3261ee6cd1dc3b0f35f8ddfa4f996fe52"
url: "https://pub.dev"
source: hosted
version: "9.3.0"
opencv_dart:
dependency: "direct main"
description:
name: opencv_dart
sha256: c2b7cc614cad69c2857e9b684e3066af662a03fe7100f4dc9a630e81ad42103a
sha256: b50ea4788e6d61df6369874e0244445d98ef9210dbb90b8d3c1df198b4ee2333
url: "https://pub.dev"
source: hosted
version: "2.2.1+1"
version: "2.2.1+4"
package_config:
dependency: transitive
description:
name: package_config
sha256: f096c55ebb7deb7e384101542bfba8c52696c1b56fca2eb62827989ef2353bbc
url: "https://pub.dev"
source: hosted
version: "2.2.0"
path:
dependency: "direct main"
description:
@@ -476,18 +577,18 @@ packages:
dependency: transitive
description:
name: path_provider_android
sha256: f2c65e21139ce2c3dad46922be8272bb5963516045659e71bb16e151c93b580e
sha256: "69cbd515a62b94d32a7944f086b2f82b4ac40a1d45bebfc00813a430ab2dabcd"
url: "https://pub.dev"
source: hosted
version: "2.2.22"
version: "2.3.1"
path_provider_foundation:
dependency: transitive
description:
name: path_provider_foundation
sha256: "6d13aece7b3f5c5a9731eaf553ff9dcbc2eff41087fd2df587fd0fed9a3eb0c4"
sha256: "2a376b7d6392d80cd3705782d2caa734ca4727776db0b6ec36ef3f1855197699"
url: "https://pub.dev"
source: hosted
version: "2.5.1"
version: "2.6.0"
path_provider_linux:
dependency: transitive
description:
@@ -512,14 +613,62 @@ packages:
url: "https://pub.dev"
source: hosted
version: "2.3.0"
permission_handler:
dependency: "direct main"
description:
name: permission_handler
sha256: bc917da36261b00137bbc8896bf1482169cd76f866282368948f032c8c1caae1
url: "https://pub.dev"
source: hosted
version: "12.0.1"
permission_handler_android:
dependency: transitive
description:
name: permission_handler_android
sha256: "1e3bc410ca1bf84662104b100eb126e066cb55791b7451307f9708d4007350e6"
url: "https://pub.dev"
source: hosted
version: "13.0.1"
permission_handler_apple:
dependency: transitive
description:
name: permission_handler_apple
sha256: f000131e755c54cf4d84a5d8bd6e4149e262cc31c5a8b1d698de1ac85fa41023
url: "https://pub.dev"
source: hosted
version: "9.4.7"
permission_handler_html:
dependency: transitive
description:
name: permission_handler_html
sha256: "38f000e83355abb3392140f6bc3030660cfaef189e1f87824facb76300b4ff24"
url: "https://pub.dev"
source: hosted
version: "0.1.3+5"
permission_handler_platform_interface:
dependency: transitive
description:
name: permission_handler_platform_interface
sha256: eb99b295153abce5d683cac8c02e22faab63e50679b937fa1bf67d58bb282878
url: "https://pub.dev"
source: hosted
version: "4.3.0"
permission_handler_windows:
dependency: transitive
description:
name: permission_handler_windows
sha256: "1a790728016f79a41216d88672dbc5df30e686e811ad4e698bfc51f76ad91f1e"
url: "https://pub.dev"
source: hosted
version: "0.2.1"
petitparser:
dependency: transitive
description:
name: petitparser
sha256: "1a97266a94f7350d30ae522c0af07890c70b8e62c71e8e3920d1db4d23c057d1"
sha256: "91bd59303e9f769f108f8df05e371341b15d59e995e6806aefab827b58336675"
url: "https://pub.dev"
source: hosted
version: "7.0.1"
version: "7.0.2"
platform:
dependency: transitive
description:
@@ -540,10 +689,10 @@ packages:
dependency: transitive
description:
name: posix
sha256: "6323a5b0fa688b6a010df4905a56b00181479e6d10534cecfecede2aa55add61"
sha256: "185ef7606574f789b40f289c233efa52e96dead518aed988e040a10737febb07"
url: "https://pub.dev"
source: hosted
version: "6.0.3"
version: "6.5.0"
provider:
dependency: "direct main"
description:
@@ -560,6 +709,30 @@ packages:
url: "https://pub.dev"
source: hosted
version: "2.2.0"
record_use:
dependency: transitive
description:
name: record_use
sha256: "2551bd8eecfe95d14ae75f6021ad0248be5c27f138c2ec12fcb52b500b3ba1ed"
url: "https://pub.dev"
source: hosted
version: "0.6.0"
sensors_plus:
dependency: "direct main"
description:
name: sensors_plus
sha256: "8e7fa79b4940442bb595bfc0ee9da4af5a22a0fe6ebacc74998245ee9496a82d"
url: "https://pub.dev"
source: hosted
version: "4.0.2"
sensors_plus_platform_interface:
dependency: transitive
description:
name: sensors_plus_platform_interface
sha256: bc472d6cfd622acb4f020e726433ee31788b038056691ba433fec80e448a094f
url: "https://pub.dev"
source: hosted
version: "1.2.0"
shared_preferences:
dependency: "direct main"
description:
@@ -625,42 +798,42 @@ packages:
dependency: transitive
description:
name: source_span
sha256: "254ee5351d6cb365c859e20ee823c3bb479bf4a293c22d17a9f1bf144ce86f7c"
sha256: "56a02f1f4cd1a2d96303c0144c93bd6d909eea6bee6bf5a0e0b685edbd4c47ab"
url: "https://pub.dev"
source: hosted
version: "1.10.1"
version: "1.10.2"
sqflite:
dependency: "direct main"
description:
name: sqflite
sha256: e2297b1da52f127bc7a3da11439985d9b536f75070f3325e62ada69a5c585d03
sha256: "564cfed0746fe53140c23b70b308e045c3b31f17778f2f326ccb7d804ea0250a"
url: "https://pub.dev"
source: hosted
version: "2.4.2"
version: "2.4.2+1"
sqflite_android:
dependency: transitive
description:
name: sqflite_android
sha256: ecd684501ebc2ae9a83536e8b15731642b9570dc8623e0073d227d0ee2bfea88
sha256: "881e28efdcc9950fd8e9bb42713dcf1103e62a2e7168f23c9338d82db13dec40"
url: "https://pub.dev"
source: hosted
version: "2.4.2+2"
version: "2.4.2+3"
sqflite_common:
dependency: transitive
description:
name: sqflite_common
sha256: "6ef422a4525ecc601db6c0a2233ff448c731307906e92cabc9ba292afaae16a6"
sha256: f8a08a13fb8f0f8c590df89d745000bed44a673ed94bac846739e1a016875c21
url: "https://pub.dev"
source: hosted
version: "2.5.6"
version: "2.5.7"
sqflite_common_ffi:
dependency: "direct main"
description:
name: sqflite_common_ffi
sha256: c59fcdc143839a77581f7a7c4de018e53682408903a0a0800b95ef2dc4033eff
sha256: cd0c7f7de39a08f2d54ef144d9058c46eca8461879aaa648025643455c1e5a20
url: "https://pub.dev"
source: hosted
version: "2.4.0+2"
version: "2.4.0+3"
sqflite_darwin:
dependency: transitive
description:
@@ -681,10 +854,10 @@ packages:
dependency: transitive
description:
name: sqlite3
sha256: "00e5e65f8e9b556ed3d999ad310881c956ffb656ed96bea487a4c50ffdff6d14"
sha256: "56da3e13ed7d28a66f930aa2b2b29db6736a233f08283326e96321dd812030f5"
url: "https://pub.dev"
source: hosted
version: "3.1.3"
version: "3.3.1"
stack_trace:
dependency: transitive
description:
@@ -701,6 +874,14 @@ packages:
url: "https://pub.dev"
source: hosted
version: "2.1.4"
stream_transform:
dependency: transitive
description:
name: stream_transform
sha256: ad47125e588cfd37a9a7f86c7d6356dde8dfe89d071d293f80ca9e9273a33871
url: "https://pub.dev"
source: hosted
version: "2.1.1"
string_scanner:
dependency: transitive
description:
@@ -729,10 +910,10 @@ packages:
dependency: transitive
description:
name: test_api
sha256: "93167629bfc610f71560ab9312acdda4959de4df6fac7492c89ff0d3886f6636"
sha256: ab2726c1a94d3176a45960b6234466ec367179b87dd74f1611adb1f3b5fb9d55
url: "https://pub.dev"
source: hosted
version: "0.7.9"
version: "0.7.7"
typed_data:
dependency: transitive
description:
@@ -745,10 +926,10 @@ packages:
dependency: "direct main"
description:
name: uuid
sha256: a11b666489b1954e01d992f3d601b1804a33937b5a8fe677bd26b8a9f96f96e8
sha256: "1fef9e8e11e2991bb773070d4656b7bd5d850967a2456cfc83cf47925ba79489"
url: "https://pub.dev"
source: hosted
version: "4.5.2"
version: "4.5.3"
vector_math:
dependency: transitive
description:
@@ -761,10 +942,10 @@ packages:
dependency: transitive
description:
name: vm_service
sha256: "45caa6c5917fa127b5dbcfbd1fa60b14e583afdc08bfc96dda38886ca252eb60"
sha256: "0016aef94fc66495ac78af5859181e3f3bf2026bd8eecc72b9565601e19ab360"
url: "https://pub.dev"
source: hosted
version: "15.0.2"
version: "15.2.0"
web:
dependency: transitive
description:
@@ -777,10 +958,10 @@ packages:
dependency: transitive
description:
name: win32
sha256: ba7d5750e3441caa1bbe31d9e516348fcf8dfcb32aa29ef87a844a59f4d1f1d0
sha256: a1fc9eb9248baa05dfc12ed5b66e377b3e23f095eec078e0371622b9033810d9
url: "https://pub.dev"
source: hosted
version: "6.1.0"
version: "6.2.0"
win32_registry:
dependency: transitive
description:
@@ -814,5 +995,5 @@ packages:
source: hosted
version: "3.1.3"
sdks:
dart: ">=3.12.0-35.0.dev <4.0.0"
flutter: ">=3.38.1"
dart: ">=3.10.3 <4.0.0"
flutter: ">=3.38.4"

View File

@@ -19,7 +19,7 @@ publish_to: 'none' # Remove this line if you wish to publish to pub.dev
version: 1.0.0+1
environment:
sdk: ^3.12.0-35.0.dev
sdk: '>=3.10.0 <4.0.0'
# Dependencies specify other packages that your package needs in order to work.
# To automatically upgrade your package dependencies to the latest versions
@@ -31,11 +31,14 @@ dependencies:
flutter:
sdk: flutter
flutter_localizations:
sdk: flutter
# The following adds the Cupertino Icons font to your application.
# Use with the CupertinoIcons class for iOS style icons.
cupertino_icons: ^1.0.8
sensors_plus: ^4.0.2
opencv_dart: ^2.1.0
google_mlkit_object_detection: ^0.15.0
# Image capture from camera/gallery
image_picker: ^1.2.1
@@ -56,17 +59,19 @@ dependencies:
uuid: ^4.3.3
# Date formatting
intl: ^0.19.0
intl: ^0.20.2
# Charts for history visualization
fl_chart: ^0.66.2
fl_chart: ^1.2.0
# Image processing for impact detection
image: ^4.1.7
permission_handler: ^12.0.1
http: ^1.6.0
device_info_plus: ^13.1.0
shared_preferences: ^2.5.5
crypto: ^3.0.7
camera: ^0.12.0+1
# Machine Learning for YOLOv8
# tflite_flutter: ^0.11.0

View File

@@ -7,8 +7,11 @@
#include "generated_plugin_registrant.h"
#include <file_selector_windows/file_selector_windows.h>
#include <permission_handler_windows/permission_handler_windows_plugin.h>
void RegisterPlugins(flutter::PluginRegistry* registry) {
FileSelectorWindowsRegisterWithRegistrar(
registry->GetRegistrarForPlugin("FileSelectorWindows"));
PermissionHandlerWindowsPluginRegisterWithRegistrar(
registry->GetRegistrarForPlugin("PermissionHandlerWindowsPlugin"));
}

View File

@@ -4,9 +4,11 @@
list(APPEND FLUTTER_PLUGIN_LIST
file_selector_windows
permission_handler_windows
)
list(APPEND FLUTTER_FFI_PLUGIN_LIST
jni
)
set(PLUGIN_BUNDLED_LIBRARIES)